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Cancer Nanomedicine Market Analysis With Key Players, Applications, Trends And Forecasts To 2028 || Alnylam Pharmaceuticals, Amgen Foundation,…

§ January 27th, 2021 § Filed under Nano Medicine Comments Off on Cancer Nanomedicine Market Analysis With Key Players, Applications, Trends And Forecasts To 2028 || Alnylam Pharmaceuticals, Amgen Foundation,…

The recent report on Global Cancer Nanomedicine Market Report by Key Players, Types, Applications, Market Size, Market Share, Regions and Forecast to 2027 offered by Data bridge market research, comprises of a comprehensive investigation into the geographical landscape, industry size along with the revenue estimation of the business. Additionally, the report also highlights the challenges impeding market growth and expansion strategies employed by leading companies in the Cancer Nanomedicine Market. the report initially introduced the market with elaborate revelations of market definition, classifications, pricing structures as well as raw material sourcing, supply chain alterations as well as production and consumption patterns that effectively determine future growth prognosis in Cancer Nanomedicine market.

Surging volume of patients suffering from cancer, and otherchronicdisorders, increasing number of geriatric population across the globe, increasing development of nanotechnology-based drugs as well as therapies, adoption of advanced technologies are some of the factors which will likely to enhance the growth of the cancer nanomedicine market in the forecast period of 2020-2027. On the other hand, surging levels of investment on research and development activities along with introduction of advanceddiagnosticsprocedure which will further bring immense opportunities for the growth of the cancer nanomedicine market in the above mentioned forecast period.

Market Analysis and Insights: Global Cancer Nanomedicine Market:

Cancer nanomedicine market is expected to gain market growth in the forecast period of 2020 to 2027. Data Bridge Market Research analyses the market to grow at a CAGR of 12.50% in the above-mentioned forecast period.

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The major players who are leading the Cancer Nanomedicine market throughout the globe are:

Market Segmentation

By Type (Inorganic Nanoparticles, Organic Nanoparticles)

By Agent Type (Diagnostic Agents, Therapeutic Agents, Drug Delivery Agents)

Some Of The Major Highlights Of TOC Covers:-

1 INTRODUCTION

1.1 Objectives Of The Study

1.2 Cancer Nanomedicine Market Definition

2 MARKET SEGMENTATION

2.1 Cancer Nanomedicine Markets Covered

2.2 Europe Weight Management Market: Geographical Scope

3 MARKET OVERVIEW

3.1 Drivers

4 EXECUTIVE SUMMARY

4.1 Europe Weight Management Market: Segmentation

5 PREMIUM INSIGHTS

5.1 Increasing Government Initiatives Towards Management And Growing Consumption Of Healthy Diets Are Expected To Drive The Cancer Nanomedicine Market In The Forecast Period Of 2020 To 2027

Continued.

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Global Cancer Nanomedicine Market Scope and Market Size

Cancer nanomedicine market is segmented on the basis of type, agent type, mechanism, cancer type, imaging technique, and phase. The growth amongst these segments will help you analyse meagre growth segments in the industries, and provide the users with valuable market overview and market insights to help them in making strategic decisions for identification of core market applications.

Regional Analysis

This section covers regional segmentation which accentuates on current and future demand for Cancer Nanomedicine market across This section covers regional segmentation which accentuates on current and future demand for COVID-19 Cancer Nanomedicine market across North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa. Further, the report focuses on demand for individual application segment across all the prominent regions. Further, the report focuses on demand for individual application segment across all the prominent regions.

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Key Pointers Covered In The Cancer Nanomedicine Market Industry Trends And Forecast To 2027

The study provides an in-depth analysis, current trends, and future estimations of theglobal Cancer Nanomedicine marketto elucidate the imminent investment pockets.

Comprehensive analysis of factors that drive and restrict the Cancer Nanomedicine market growth is provided.

The Cancer Nanomedicine Industry report provides a qualitative and quantitative analysis of the current External Storage market trends, forecasts, and market size from 2020 to 2027 to determine new opportunities.

Porters Five Forces analysis highlights the potency of buyers and suppliers to enable stakeholders to make strategic business decisions and determine the level of competition in the industry.

Extensive analyses of key segments of the industry help understand the types of products and technologies used across various geographical regions.

About Data Bridge Market Research Private Ltd:

Data Bridge Market Research PvtLtdis a multinational management consulting firm with offices in India and Canada. As an innovative and neoteric market analysis and advisory company with unmatched durability level and advanced approaches. We are committed to uncover the best consumer prospects and to foster useful knowledge for your company to succeed in the market.

Data Bridge Market Research is a result of sheer wisdom and practice that was conceived and built-in Pune in the year 2015. The company came into existence from the healthcare department with far fewer employees intending to cover the whole market while providing the best class analysis. Later, the company widened its departments, as well as expands their reach by opening a new office in Gurugram location in the year 2018, where a team of highly qualified personnel joins hands for the growth of the company. Even in the tough times of COVID-19 where the Virus slowed down everything around the world, the dedicated Team of Data Bridge Market Research worked round the clock to provide quality and support to our client base, which also tells about the excellence in our sleeve.

Data Bridge Market Research has over 500 analysts working in different industries. We have catered more than 40% of the fortune 500 companies globally and have a network of more than 5000+ clientele around the globe.

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Nanopharmaceuticals Market: Rise in the Incidence of Chronic Diseases is Expected to Drive the Market – BioSpace

§ January 27th, 2021 § Filed under Nano Medicine Comments Off on Nanopharmaceuticals Market: Rise in the Incidence of Chronic Diseases is Expected to Drive the Market – BioSpace

Nanopharmaceuticals Market: Overview

Nanopharmaceuticals are revolutionizing medical science by leveraging nanomedicine to render effective healthcare, especially in developing countries. The technology is yet in evolution stages and promises to bring advancement not only in therapeutics but also in detecting diseases and targets. Also, one factor that is making it popular is its cost-effectiveness.

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Rise in the incidence of chronic diseases such as infectious diseases, cancer, and cardiovascular diseases, is paving way for expansion of nano-pharmaceuticals market. Nanopharmaceuticals are also referred to as nanotechnology-based pharmaceuticals. The advancement is becoming an integral part of medical science and has potential to treat diseases at cellular level.

Primarily, nanopharmaceuticals are particles in the size range 10 to 1,000 nanometers of specific matter used to manufacture drugs. As a result of composition and shape, the medicines have several benefits to offer over the normal medicines.

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The report on nanopharmaceuticals market offers insights about the latest developments in the field. Besides, it targets the potential drivers which will help in the expansion of the market in the tenure of forecast period. Later, the market intelligence offers details about particular segments dominating in specific regions.

Nano-pharmaceuticals Market: Trends and Opportunities

Increase in the incidence of chronic diseases such as cancer, infectious diseases, and cardiovascular diseases, is one of the main factors fuelling nano-pharmaceuticals market. Prominent players in the nano-pharmaceuticals market are investing on large scale in order to introduce improved medicines in the market.

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The advancements in the nanopharmaceuticals are likely to address therapeutics for critical diseases, which are yet to be explored. This can be explained by an example of Jazz Pharmaceuticals, a key player of nano-pharmaceuticals market. In August 2017, the company received FDA approval for Vyxeos. Vyxeos is basically used for the treatment of acute myeloid leukemia.

Registering the pace of research and developments underway for nanopharmaceuticals, global nano-pharmaceuticals market is projected to grow at a significant pace in the course of the forecast period.

On the other side, factors such as less solubility of nano-pharmaceuticals, toxicity issues, and its functioning need to be addressed on a wider scale. If not, these factors may hinder the growth of the nanopharmaceutical market in the tenure of forecast period.

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Nanopharmaceuticals Market: Regional Outlook

As a result of substantial advancement in the research and development activities in North America, the region is expected to dominate in the global nano-pharmaceuticals market. Besides, the region is witnessing rapid adoption rate of nano-pharmaceuticals for advanced therapeutics. Also, presence of prominent players is another main factor which is fuelling the expansion of nano-pharmaceutical market.

Due to presence of large number of players in the nano-pharmaceuticals market, the competition is also intense. These players are bringing several strategies and developments in the market to gain foothold in the market. Prominent players are expanding their reign by acquisitions, merging and collaborations. Some of the prominent players in the market are- Teva Pharmaceuticals Industries Limited, JOHNSON & JOHNSON, Shire Plc., Novartis AG, Hoffmann-La Roche AG, Pfizer Inc., Merck & Co., and Sanofi S.A.

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Nano-pharmaceuticals Market: Competitive Analysis

Some of the key players in the nanopharmaceuticals market are JOHNSON & JOHNSON, Sanofi S.A, Hoffmann-La Roche AG, Teva Pharmaceuticals Industries Limited, Novartis AG, Merck & Co., Shire Plc., and Pfizer.

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Sona Nanotech, Inc. Investors: Last Days to Participate Actively in the Class Action Lawsuit; Portnoy Law Firm – Yahoo Finance

§ January 27th, 2021 § Filed under Nanotech Comments Off on Sona Nanotech, Inc. Investors: Last Days to Participate Actively in the Class Action Lawsuit; Portnoy Law Firm – Yahoo Finance

Investors with losses are encouraged to contact the firm before February 16, 2021; click here to submit trade information

LOS ANGELES, Jan. 26, 2021 (GLOBE NEWSWIRE) -- The Portnoy Law Firm advises investors that a class action lawsuit has been filed on behalf of Sona Nanotech, Inc. (OTC: SNANF) investors that acquired shares between July 2, 2020 and November 25, 2020. Investors have until February 16, 2021 to seek an active role in this litigation.

Investors are encouraged to contact attorney Lesley F. Portnoy, to determine eligibility to participate in this action, by phone 310-692-8883 or email, or click here to join the case.

The investigation focuses on whether Sona issued misleading and/or false statements and/or failed to disclose information pertinent to investors. On October 29, 2020 it was announced by Sona that its request for an emergency use authorization to market its rapid COVID-19 antigen test in the United States was denied by the FDA. On the same day, Sonas shares fell 48%. On November 25, 2020, the withdrawal of an Interim Order authorization from Health Canada for the marketing of its rapid, COVID-19 antigen test in order to obtain more clinical data to augment its submission was announced by Sona. Shares of Sona fell by more than 67% on the same day based on this news.

A class action lawsuit has already been filed. If you wish to serve as lead plaintiff, you must move the Court no later than February 16, 2021.

Please visit our website to review more information and submit your transaction information.

The Portnoy Law Firm represents investors in pursuing claims arising from corporate wrongdoing. The Firms founding partner has recovered over $5.5 billion for aggrieved investors. Attorney advertising. Prior results do not guarantee similar outcomes.

Lesley F. Portnoy, Esq. Admitted CA and NY Bar lesley@portnoylaw.com 310-692-8883 http://www.portnoylaw.com

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Aerospace Nanotechnology Market (COVID-19) to Witness Astonishing Growth by Forecast 2021-2027 |Airbus, Glonatech, Flight Shield, Lockheed Martin,…

§ January 27th, 2021 § Filed under Nanotechnology Comments Off on Aerospace Nanotechnology Market (COVID-19) to Witness Astonishing Growth by Forecast 2021-2027 |Airbus, Glonatech, Flight Shield, Lockheed Martin,…

Aerospace Nanotechnology Market Report Coverage: Key Growth Factors & Challenges, Segmentation & Regional Outlook, Top Industry Trends & Opportunities, Competition Analysis, COVID-19 Impact Analysis & Projected Recovery, and Market Sizing & Forecast.

Latest launched research on Global Aerospace Nanotechnology Market, it provides detailed analysis with presentable graphs, charts and tables. This report covers an in depth study of the Aerospace Nanotechnology Market size, growth, and share, trends, consumption, segments, application and Forecast 2027. With qualitative and quantitative analysis, we help you with thorough and comprehensive research on the global Aerospace Nanotechnology Market. This report has been prepared by experienced and knowledgeable market analysts and researchers. Each section of the research study is specially prepared to explore key aspects of the global Aerospace Nanotechnology Market.Buyers of the report will have access to accurate PESTLE, SWOT and other types of analysis on the global Aerospace Nanotechnology market. Moreover, it offers highly accurate estimations on the CAGR, market share, and market size of key regions and countries.

Major Key players profiled in the report include:Airbus, Glonatech, Flight Shield, Lockheed Martin, Lufthansa Technik, tripleO Performance Solution, Zyvex Technologies, CHOOSE NanoTech, General Nano, HR TOUGHGUARD, Metamaterial Technologies and More

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Segmental Analysis: The report has classified the global Aerospace Nanotechnology market into segments including product type and application. Every segment is evaluated based on share and growth rate. Besides, the analysts have studied the potential regions that may prove rewarding for the Aerospace Nanotechnology manufcaturers in the coming years. The regional analysis includes reliable predictions on value and volume, there by helping market players to gain deep insights into the overall Aerospace Nanotechnology industry.

Based on the type of product, the global Aerospace Nanotechnology market segmented into: Nanomaterials Nanotools Nanodevices

Based on the end-use, the global Aerospace Nanotechnology market classified into: Aircraft Parts Fuselage Structure Aero Engine Parts Aircraft Electronic Communication System Others

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The authors of the report have analyzed both developing and developed regions considered for the research and analysis of the global Aerospace Nanotechnology market. The regional analysis section of the report provides an extensive research study on different regional and country-wise Aerospace Nanotechnology industry to help players plan effective expansion strategies.

Regions Covered in the Global Aerospace Nanotechnology Market: The Middle East and Africa (GCC Countries and Egypt) North America (the United States, Mexico, and Canada) South America (Brazil etc.) Europe (Turkey, Germany, Russia UK, Italy, France, etc.) Asia-Pacific (Vietnam, China, Malaysia, Japan, Philippines, Korea, Thailand, India, Indonesia, and Australia)

Years Considered to Estimate the Market Size: History Year: 2015-2019 Base Year: 2019 Estimated Year: 2021 Forecast Year: 2021-2026

Detailed TOC of Aerospace Nanotechnology Market Report 2021-2026: Chapter 1: Aerospace Nanotechnology Market Overview Chapter 2: Economic Impact on Industry Chapter 3: Market Competition by Manufacturers Chapter 4: Production, Revenue (Value) by Region Chapter 5: Supply (Production), Consumption, Export, Import by Regions Chapter 6: Production, Revenue (Value), Price Trend by Type Chapter 7: Market Analysis by Application Chapter 8: Manufacturing Cost Analysis Chapter 9: Industrial Chain, Sourcing Strategy and Downstream Buyers Chapter 10: Marketing Strategy Analysis, Distributors/Traders Chapter 11: Market Effect Factors Analysis Chapter 12: Aerospace Nanotechnology Market Forecast Continued

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What market dynamics does this report cover? The report shares key insights on:

It helps companies make strategic decisions.

Does this report provide customization? Customization helps organizations gain insight into specific market segments and areas of interest. Therefore, Market Info Reports provides customized report information according to business needs for strategic calls.

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Why Choose Market Info Reports?: Market Info Reports Research delivers strategic market research reports, industry analysis, statistical surveys and forecast data on products and services, markets and companies. Our clientele ranges mix of global business leaders, government organizations, SMEs, individuals and Start-ups, top management consulting firms, universities, etc. Our library of 600,000 + reports targets high growth emerging markets in the USA, Europe Middle East, Africa, Asia Pacific covering industries like IT, Telecom, Chemical, Semiconductor, Healthcare, Pharmaceutical, Energy and Power, Manufacturing, Automotive and Transportation, Food and Beverages, etc. This large collection of insightful reports assists clients to stay ahead of time and competition. We help in business decision-making on aspects such as market entry strategies, market sizing, market share analysis, sales and revenue, technology trends, competitive analysis, product portfolio, and application analysis, etc.

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Coatue and T. Rowe Price Funds Anchor $590m Investment in Sila Nanotechnologies – Business Wire

§ January 27th, 2021 § Filed under Nanotechnology Comments Off on Coatue and T. Rowe Price Funds Anchor $590m Investment in Sila Nanotechnologies – Business Wire

ALAMEDA, Calif.--(BUSINESS WIRE)--Sila Nanotechnologies (Sila Nano), a next-generation battery materials company, announced that it raised $590 million Series F funding at a $3.3 billion post-money valuation. The new funding comes as the first Sila Nano-powered batteries prepare to ship in consumer devices and the company scales up its production to serve growing demand from smartphone and automotive customers. Coatue led the round with significant participation by funds and accounts advised by T. Rowe Price Associates, Inc. In addition, existing investors 8VC, Bessemer Venture Partners, Canada Pension Plan Investment Board, and Sutter Hill Ventures also participated in the round.

Sila Nano will use the funds to begin development of a new North American 100 GWh plant to produce its silicon-based anode material and serve smartphone and automotive customers. The company, which currently has partnerships with BMW, Daimler, and ATL, aims to start production at the new plant in 2024 and powering electric vehicles by 2025. To help achieve its next phase of growth, Sila Nano will hire another 100 employees in 2021.

It took eight years and 35,000 iterations to create a new battery chemistry, but that was just step one, said Gene Berdichevsky, co-founder and CEO, Sila Nano. For any new technology to make an impact in the real-world, it has to scale, which will cost billions of dollars. We know from our experience building our production lines in Alameda that investing in our next plant today will keep us on track to be powering cars and hundreds of millions of consumer devices by 2025.

As the world shifts to electric vehicles and a renewables-based energy system, global battery production has been scaling up from 20 GWh per year in 2010 to 2,000 GWh per year by 2030, and 30,000 GWh per year by 2050. Sila Nanos material was designed as a drop-in replacement for graphite in existing lithium-ion factories, enabling battery makers to dramatically improve the energy density of their products without needing to change the battery manufacturing process or equipment.

We believe Sila Nano has created a battery technology that is new, groundbreaking, and has a clear path to scale and broad adoption, said Jaimin Rangwalla of Coatue Management. We are excited about the Sila Nano teams opportunity to take advantage of the existing global lithium-ion manufacturing infrastructure and help transform the future of energy storage. We look forward to our future partnership with Gene and his incredible team as they work to deliver on the potential to set a new standard for batteries.

About Sila Nanotechnologies

Sila Nano develops materials that set a new standard for batteries. Through new battery materials chemistry, Sila Nano enables lighter, safer, higher energy density batteries for mass adoption of electric vehicles, smarter, longer-lasting portable electronics, and broader use of renewable power sources. Their first product is a silicon-based anode that demonstrates 20 percent improvement over state of the art traditional lithium-ion today, with the potential to reach 50 percent improvement over time. Founded in 2011 by Silicon Valley battery engineers and a Georgia Tech Professor of Materials Science, Sila Nano is headquartered in Alameda, California. Investors include 8VC, Amperex Technology Limited, Bessemer Venture Partners, Canada Pension Plan Investment Board, Chengwei Capital, Coatue, Daimler, In-Q-Tel, Matrix Partners, Next47, Samsung, Sutter Hill Ventures, and funds and accounts advised by T. Rowe Price Associates, Inc. For more information, visit http://www.silanano.com.

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Smart Nanomaterials Market to Reach Value of USD 8.91 Billion by 2027 | Global Analysis, Industry Statistics, Revenue, Demand and Trend Analysis…

§ January 27th, 2021 § Filed under Nanotechnology Comments Off on Smart Nanomaterials Market to Reach Value of USD 8.91 Billion by 2027 | Global Analysis, Industry Statistics, Revenue, Demand and Trend Analysis…

January 27, 2021 12:00 ET | Source: Emergen Research

Vancouver, British Columbia, Jan. 27, 2021 (GLOBE NEWSWIRE) -- The global smart nanomaterials market is expected to reach a market size of USD 8.91 Billion by 2027, as a result of major R&D initiatives driving steady revenue growth, according to a current analysis by Emergen Research. Increasing use of smart nanomaterials in end-user industries such as cosmetics, food and beverages, pharmaceuticals and healthcare, chemicals, electronics etc., is mainly driven by the materials unique physiochemical properties.

Nanotechnology is also used in the bioprocessing industry as food additives and in the packaging industry as antimicrobial agents and anti-caking agents to ensure long shelf life of processed food products. Further advancements in the field of nanomaterials is expected to result in the development and introduction of more efficient solutions for various applications in sectors such as power engineering, biotechnology, and others.

In addition, besides the existing drug delivery solutions, advancements in nanomaterial technology will result in efficient targeting and drug delivery a specific affected organ. The adjustable physical and chemical properties of nanomaterials, and ability for these to be used to help to create new technology of rapid diagnostics of living organisms is a major factor expected to drive application in medical devices, electronic devices and products. In addition, these properties also enable increasing applications in coatings, and paint industries, which is a major factor expected to drive market growth to a significant extent over the forecast period.

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Increasing product adoption for aerospace applications to improve durability and strength of aircraft part and components, as well as increasing applications in medicinal imaging is expected to drive growth of the market.

Further Key Findings From the Report Suggest:

Check Our Prices@ https://www.emergenresearch.com/select-license/481 For the purpose of this report, Emergen Research has segmented the global smart nanomaterials market based on types, application, end-use, and regions as follows:

Click to access the Report Study, Read key highlights of the Report and Look at Projected Trends: https://www.emergenresearch.com/industry-report/smart-nanomaterials-market

Take a Look at our Related Reports:

Spherical graphite market size was valued at USD 2,435.8 Million in 2019 and is forecasted to reach USD 9,598.8 Million by 2027 at a CAGR of 18.6%. The spherical graphite market is observing a double-digit growth attributed to its increasing usage in lithium-ion battery production.

Sodium dichromate market size was valued at USD 759.2 Million in 2019 and is forecasted to reach USD 1,242.4 Million by 2027 at a CAGR of 6.3%. The sodium dichromate market is observing high demand attributed to its increasing application in pigment, metal finishing, chromium compounds preparation, leather tanning, and wood preservative.

Acoustic insulation market size was valued at USD 12.94 Billion in 2019 and is forecasted to reach USD 19.64 Billion by 2027 at a CAGR of 5.3%. The acoustic insulation market is observing high demand attributed to its increasing application in building & construction, automotive, aerospace, and manufacturing.

About Emergen Research

Emergen Research is a market research and consulting company that provides syndicated research reports, customized research reports, and consulting services. Our solutions purely focus on your purpose to locate, target, and analyze consumer behavior shifts across demographics, across industries, and help clients make smarter business decisions. We offer market intelligence studies ensuring relevant and fact-based research across multiple industries, including Healthcare, Touch Points, Chemicals, Types, and Energy. We consistently update our research offerings to ensure our clients are aware of the latest trends existent in the market. Emergen Research has a strong base of experienced analysts from varied areas of expertise. Our industry experience and ability to develop a concrete solution to any research problems provides our clients with the ability to secure an edge over their respective competitors.

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Smart Nanomaterials Market to Reach Value of USD 8.91 Billion by 2027 | Global Analysis, Industry Statistics, Revenue, Demand and Trend Analysis...

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Global Nanotechnology Market Trends, Forecast and Insights between 2021 and 2027: Applied Nanotech Holdings Inc., Altair Nanotechnologies Inc., Imina…

§ January 27th, 2021 § Filed under Nanotechnology Comments Off on Global Nanotechnology Market Trends, Forecast and Insights between 2021 and 2027: Applied Nanotech Holdings Inc., Altair Nanotechnologies Inc., Imina…

The rapid globalization has changed the traditional mediums of growth all across the globe. With innovation spurring all around the world, the Nanotechnology Market has come miles ahead. The industry is characterized by several leading factors, with each element playing a crucial role in the growth of the sector. The following report carefully analyses all the essential aspects of the Nanotechnology market and provides a detailed overview of the growth prospects of the industry. The industry is expected to grow by leaps and bounds and hence has attracted significant investors all across the globe. On the other hand, the Nanotechnology market is expected to grow at a compound annual growth rate of % during the forecasted period.

Key players in the Global Nanotechnology Market: Applied Nanotech Holdings Inc., Altair Nanotechnologies Inc., Imina Technologies Sa, Thermofisher Scientific, Bruker Axs, eSpin Technologies, Inc., Kleindiek Nanotechnik Gmbh, Biosensor International, Nanoics Imaging Ltd and Advanced Nano Products, and more

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Drivers and Risks

The global Nanotechnology market is characterized by several leading factors, with each factor playing a crucial role in the growth of the industry. The growing demand of products coupled with easy availability of the same has helped the industry flourish all across the globe. On the other hand, the presence of a dynamic supply chain has helped the industry grow exponentially. However, despite the growth opportunities, the Nanotechnology market faces severe criticism from all aspects.

The presence of harmful ingredients has forced the manufacturers to change their machinery and hence has created a buzz all across the globe. Despite the challenges, the analysts remain positive about the growth prospects of the industry and, therefore, have attracted global attention. The major investors have been investing aggressively in the growth prospects of the industry.

Regional Description

The global Nanotechnology market has a worldwide presence and hence, has been proliferating all across the globe. APAC, North America, and several others in the region serve as the most excellent markets. The growing awareness about the use of the product, coupled with the easy availability of the same, has been helping the industry grow by leaps and bounds. On the other hand Europe and Others serve as the most significant potential too. Rapid globalization, coupled with an increase in the per capita, has worked in favor of the industry. The industry is still in its nascent stages and hence has been expanding all across the globe.

Method of Research

The following report strictly adheres to all the laws and regulations and is formulated from the use of both primary and secondary sources. The team of experts come from various backgrounds and ensures the highest quality of products. On the other hand, deep expertise in statistical modeling and additional analysis of crucial frameworks provide a comprehensive overview of the growth of the industry.

Key Players

The growth potential of the Nanotechnology market has attracted some of the leading names of the industry, while on the other hand new entrants in the domain have also been successfully identified.

If you have any special requirements about Nanotechnology Market report, please let us know and we can provide custom report.

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Global Nanotechnology Market Trends, Forecast and Insights between 2021 and 2027: Applied Nanotech Holdings Inc., Altair Nanotechnologies Inc., Imina...

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Nanotechnology Enabled Coatings for Aircraft Market to Eyewitness Massive Growth by 2028: AnCatt (United States), Applied Thin Films (United States),…

§ January 27th, 2021 § Filed under Nanotechnology Comments Off on Nanotechnology Enabled Coatings for Aircraft Market to Eyewitness Massive Growth by 2028: AnCatt (United States), Applied Thin Films (United States),…

Nanotechnology Enabled Coatings for Aircraft Market Forecast 2029: Revenue, Size & Growth

Global Nanotechnology Enabled Coatings for Aircraft MarketForecast till 2029research includes reliable economic, international, and country-level forecasts and analysis. It offers a holistic view of the competitive market and thorough analyses of the supply chain to help companies identify closely significant trends in the company practices seen in the sector. Major Companies listed in this Reports areAnCatt (United States), Applied Thin Films (United States), FlightShield (United States), Glonatech (Greece), tripleO (United States), CHOOSE NanoTech (United Kingdom), General Nano (United States), Surfactis Technologies (France), Tesla NanoCoatings (United States).

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Regional Breakout for Nanotechnology Enabled Coatings for Aircraft Market: North America XXX million $, Europe XXX million $, Asia XXX million $ & Rest of World.

OverviewNanotechnology Enabled Coatings for Aircraft Market including Types & Application:

North America:United States, Canada, and Mexico South & Central America:Argentina, Chile, and Brazil Middle East & Africa:Saudi Arabia, UAE, Turkey, Egypt and South Africa Europe:UK, France, Italy, Germany, Spain, and Russia

Application: [Application]

Types:[Type]

Nanotechnology Enabled Coatings for Aircraft Market Leading Competition:In this section, the report provides information on Competitive situations and trends including merger and acquisition and expansion, market shares of the top ten players, and market concentration rate. Readers could also be provided with production, revenue, and average price shares by manufacturers.

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Research Methodology:

The market engineering process uses a top-down and bottom-up approach and several data triangulation methods to evaluate and validate the size of the entire market and other dependent sub-markets listed in Nanotechnology Enabled Coatings for Aircraft report. Numerous qualitative and quantitative analyzes have been conducted in the market engineering process to list key information / insights. The major players in the market were identified through the second survey and the market rankings were determined through the first and second surveys.

Primary Research:

During the first survey, we interviewed various key sources of supply and demand to obtain qualitative and quantitative information related to Nanotechnology Enabled Coatings for Aircraft report. Key supply sources include key industry participants, subject matter specialists from key companies, and consultants from several major companies and organizations active in the digital signage market.

Secondary Research:

The second study was conducted to obtain key information on the supply chain of the Nanotechnology Enabled Coatings for Aircraft industry, the markets currency chain, pools of major companies, and market segmentation, with the lowest level, geographical market, and technology-oriented perspectives. Secondary data was collected and analyzed to reach the total market size, which was verified by the first survey.

Global Nanotechnology Enabled Coatings for Aircraft Market Detailed study of each point:

TheNanotechnology Enabled Coatings for Aircraft Marketstudy offers a comprehensive overview of the current market and forecasts by 2020-2029 to help identify emerging business opportunities on which to capitalize.

The report provides an in-depth review of industry dynamics in Nanotechnology Enabled Coatings for Aircraft, including existing and potential developments to represent prevailing consumer pockets of investment.

The report provides details concerning key drivers, constraints and opportunities and their effect on the Nanotechnology Enabled Coatings for Aircraft market.

Industry players AnCatt (United States), Applied Thin Films (United States), FlightShield (United States), Glonatech (Greece), tripleO (United States), CHOOSE NanoTech (United Kingdom), General Nano (United States), Surfactis Technologies (France), Tesla NanoCoatings (United States) strategic analysis and industry position in the global Nanotechnology Enabled Coatings for Aircraft market;

The report elaborates on the SWOT analysis and Porters Five Forces model.

The market-study value chain review gives a good view of the positions of the stakeholders.

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Major Highlights of Nanotechnology Enabled Coatings for Aircraft Market in Covid-19 pandemic covered in report:

Market Competition by key manufacturers in the Nanotechnology Enabled Coatings for Aircraft industry. Discussed Sourcing strategies, industrial chain information and downstream buyers data. Distributors and traders on Nanotechnology Enabled Coatings for Aircraft marketing strategy analysis focusing on region wise needs in covid-19 pandemic. Vendors who are providing a wide range of product lines and intensifying the competitive scenario in Nanotechnology Enabled Coatings for Aircraft covid-19 crisis. Also highlights of the key growth sectors of Nanotechnology Enabled Coatings for Aircraft market and how they will perform in coming years.

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** The demand is measured on the basis of the weighted average sale price (WASP), which requires the manufacturers taxes. The currency conversions that were used to construct this study were determined using a given annual average rate of currency exchange from 2020.

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Healthcare Nanotechnology Market Report, History And Forecast 2020-2027, Breakdown Data By Manufacturers, Key Regions, Types And Application …

§ January 27th, 2021 § Filed under Nanotechnology Comments Off on Healthcare Nanotechnology Market Report, History And Forecast 2020-2027, Breakdown Data By Manufacturers, Key Regions, Types And Application …

An analysis report published by IndustryGrowthInsights (IGI) is an in-depth study and detailed information regarding the market size, market performance and market dynamics of the Healthcare Nanotechnology. The report offers a robust assessment of the Healthcare Nanotechnology Market to understand the current trend of the market and deduces the expected market trend for the Healthcare Nanotechnology market for the forecast period. Providing a concrete assessment of the potential impact of the ongoing COVID-19 in the next coming years, the report covers key strategies and plans prepared by the major players to ensure their presence intact in the global competition. With the availability of this comprehensive report, the clients can easily make an informed decision about their business investments in the market.

Get Exclusive Free Sample Report @ https://industrygrowthinsights.com/request-sample/?reportId=131882

This detailed report also highlights key insights on the factors that drive the growth of the market as well key challenges that are expected to hamper the market growth in the forecast period. Keeping a view to provide a holistic market view, the report describes the market components such as product types and end users in details with explaining which component is expected to expand significantly and which region is emerging as the key potential destination of the Healthcare Nanotechnology market. Moreover, it provides a critical assessment of the emerging competitive landscape of the manufacturers as the demand for the Healthcare Nanotechnology is projected to increase substantially across the different regions.

The report, published by IndustryGrowthInsights (IGI), is the most reliable information because it consists of a concrete research methodology focusing on primary as well as secondary sources. The report is prepared by relying on primary source including interviews of the company executives and representatives and accessing official documents, websites, and press release of the companies. The IndustryGrowthInsights (IGI)s report is widely known for its accuracy and factual figures as it consists of a concise graphical representations, tables, and figures which displays a clear picture of the developments of the products and its market performance over the last few years.

Furthermore, the scope of the growth potential, revenue growth, product range, and pricing factors related to the Healthcare Nanotechnology market are thoroughly assessed in the report in a view to entail a broader picture of the market.

Key companies that are covered in this report:

Amgen Teva Pharmaceuticals Abbott UCB Roche Celgene Sanofi Merck & Co Biogen Stryker Gilead Sciences Pfizer 3M Company Johnson & Johnson Smith & Nephew Leadiant Biosciences Kyowa Hakko Kirin Takeda Ipsen Endo International Healthcare Nanotechnolog

*Note: Additional companies can be included on request

The report covers a detailed performance of some of the key players and analysis of major players in the industry, segments, application and regions. Moreover, the report also takes into account the governments policies in the evaluation of the market behavior to illustrate the potential opportunities and challenges of the market in each region. The report also covers the recent agreements including merger and acquisition, partnership or joint venture and latest developments of the manufacturers to sustain in the global competition of the Healthcare Nanotechnology market.

By Application:

Anticancer CNS Product Anti-infective Others

By Type:

Nanomedicine Nano Medical Devices Nano Diagnosis Others Healthcare Nanotechnolog

You can also go for a yearly subscription of all the updates on Healthcare Nanotechnology market.

You can buy the complete report @ https://industrygrowthinsights.com/checkout/?reportId=131882

According to the report, the Healthcare Nanotechnology market is projected to reach a value of USDXX by the end of 2027 and grow at a CAGR of XX% through the forecast period (2020-2027). The report covers the performance of the Healthcare Nanotechnology in regions, North America, Latin America, Europe, Asia Pacific, and Middle East & Africa by focusing some key countries in the respective regions. As per the clients requirements, this report can be customized and available in a separate report for the specific region and countries.

The following is the TOC of the report:

Executive Summary

Assumptions and Acronyms Used

Research Methodology

Healthcare Nanotechnology Market Overview

Healthcare Nanotechnology Supply Chain Analysis

Healthcare Nanotechnology Pricing Analysis

Global Healthcare Nanotechnology Market Analysis and Forecast by Type

Global Healthcare Nanotechnology Market Analysis and Forecast by Application

Global Healthcare Nanotechnology Market Analysis and Forecast by Sales Channel

Global Healthcare Nanotechnology Market Analysis and Forecast by Region

North America Healthcare Nanotechnology Market Analysis and Forecast

Latin America Healthcare Nanotechnology Market Analysis and Forecast

Europe Healthcare Nanotechnology Market Analysis and Forecast

Asia Pacific Healthcare Nanotechnology Market Analysis and Forecast

Middle East & Africa Healthcare Nanotechnology Market Analysis and Forecast

Competition Landscape

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The report also answers some of the key questions given below:

If you have any questions on this report, please reach out to us @ https://industrygrowthinsights.com/enquiry-before-buying/?reportId=131882

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We keep our priority to fulfil the needs of our customers by offering authentic and inclusive reports for the global market-related domains. With a genuine effort from a dedicated team of business experts, IndustryGrowthInsights (IGI) has been in the service by providing innovative business ideas and strategies for the current global market for various industries and set its benchmark in the market research industry.

We have a large support of database from various leading organizations and business executives across the globe; so, we excel at customized report as per the clients requirements and updating market research report on the daily basis with quality information.

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Increasing Demand for Brazil Complementary and Alternative Medicine to Push Global Market Revenue Growth During 2020-2026 The Courier – The Courier

§ January 27th, 2021 § Filed under Quantum Medicine Comments Off on Increasing Demand for Brazil Complementary and Alternative Medicine to Push Global Market Revenue Growth During 2020-2026 The Courier – The Courier

Jan. 25, 2021, FNF Research (fnfresearch.com) offering a comprehensive analysis of the Updated Latest Report 2020 [2020-2026] Brazil Complementary and Alternative Medicine Market Report by Quantitative Research Incorporating Impact Of Economic And Non-economic Aspects where users can benefit from the complete market research report with all the required useful information about this market. Based on the Brazil Complementary and Alternative Medicine market development status, competitive landscape, and development model in different regions of the world, this report is dedicated to providing niche markets, potential risks, and comprehensive competitive strategy analysis in different fields. From the competitive advantages of different types of products and services, the development opportunities and consumption characteristics and structure analysis of the downstream application fields are all analyzed in detail.

The report also focuses on the major driving trends and challenges that affect the market and the vendor landscape. The report explains the competitive landscape and current trends in the Brazil Complementary and Alternative Medicine market. The report concludes with an analysis of the Brazil Complementary and Alternative Medicine vendor landscape and includes detailed profiles of the major players in the global Brazil Complementary and Alternative Medicine market.

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(The free sample of this report is readily available on request and updated with new research additions).

The FREE Sample Report Includes:

Key Questions Answered in this Report

This report highlights the current and future market potential for Brazil Complementary and Alternative Medicine and provides a detailed analysis of the competitive environment, regulatory scenario, drivers, restraints, opportunities, and trends in the market. The report also covers market projections through 2026, as well as key market players.

What benefits does FNF research study is going to provide?

Brazil Complementary and Alternative Medicine Market Study Coverage: It includes key market segments, key manufacturers covered, the scope of products offered in the years considered, global Brazil Complementary and Alternative Medicine Market, and study objectives. Additionally, it touches on the segmentation study provided in the report on the basis of the type of product and applications.

Key Highlights of the Table of Contents:

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Segment Analysis:

Analysis of the market segment includes the two major product and service categories as well as the end-user. Such a segmentation enables a granular view of the market that is needed to understand the finer nuances.

NOTE: **Our analysts monitoring the situation across the globe explains that the market will generate remunerative prospects for producers post the COVID-19 crisis. The report aims to provide an additional illustration of the latest scenario, economic slowdown, and COVID-19 impact on the overall industry.**

The report also includes a discussion on the major players in each regional market for Brazil Complementary and Alternative Medicine. It explains the main market drivers of the global Brazil Complementary and Alternative Medicine market, current trends within the industry; and the regional dynamics of the Brazil Complementary and Alternative Medicine market.

The report concludes with detailed profiles of major global vendors in the Brazil Complementary and Alternative Medicine industry.

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A comprehensive analysis of the global markets for the report within the industry and its sub-segments

Analyses of the global market trends, with data from 2018, 2020, estimates for 2020, and projections of compound annual growth rates (CAGRs) through 2026

Competitive landscape featuring major market participants of the global Brazil Complementary and Alternative Medicine industry, and Porters Five Forces analysis considering both the micro and macro environmental factors prevailing in the market

Detailed insights into factors driving and restraining the growth of the global Brazil Complementary and Alternative Medicine market

Company profiles of the market-leading participants

Scope of the Brazil Complementary and Alternative Medicine Market Report:

Brazil Complementary and Alternative Medicine Market Historic Data (2020-2026):

Brazil Complementary and Alternative Medicine Market Forecast (2020-2026):

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Research Coverage:

The Brazil Complementary and Alternative Medicine market has been segmented based on offering, technology, end-use application, and end-user. It also provides a detailed view of the market across four main regions: North America, Europe, APAC, and RoW.

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A fridge thats colder than outer space could take quantum computing to new heights – TechRadar

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on A fridge thats colder than outer space could take quantum computing to new heights – TechRadar

For most of us, the refrigerator is where we keep our dairy, meat and vegetables. For Ilana Wisby, CEO at Oxford Quantum Circuits (OQC), refrigeration means something else entirely.

Her company, operator of the UKs only commercially available quantum computer, has recently announced a new partnership with Oxford Instruments Nanoscience, a manufacturer of ultra-low temperature refrigerators.

As per the agreement, OQC will be the first to deploy the new Proteox cryo-refrigerator, which reaches temperatures as low as 5-8 millikelvin (circa -273 C/-460 F), significantly colder than outer space.

According to Wisby, the arrival of powerful new refrigerators will allow organizations like hers to take quantum computing to new heights, by improving the "quality" of superconducting quantum bits (qubits).

Quantum effects only happen in really low-energy environments, and energy is temperature. Ultimately, we need to be at incredibly low temperatures, because were working at single-digit electron levels, she explained

A qubit is an electronic circuit made from aluminum, built with a piece of silicon, which we cool down until it becomes superconducting and then further until single electron effects are happening.

The colder the system the less noise and mess there is, she told TechRadar Pro, because all the other junk is frozen out. With the Proteox, then, OQC hopes to be able to scale up the architecture of its quantum machine in a significant way.

The meaning of quantum computing, let alone its significance, can be difficult to grasp without a background in physics. At the end of our conversation, Wisby herself told us she had found it difficult to balance scientific integrity with the need to communicate the concepts.

But, in short, quantum computers approach problem solving in an entirely different way to classical machines, making use of certain symmetries to speed up processing and allow for far greater scale.

Quantum computers exploit a number of principles that define how the world works at an atomic level. Superposition, for example, is a principle whereby something can be in two positions at once, like a coin thats both a head and a tail, said Wisby.

Ultimately, that can happen with information as well. We are therefore no longer limited to just ones and zeros, but can have many versions of numbers in between, superimposed.

Instead of running calculation after calculation in a linear fashion, quantum machines can run them in parallel, optimizing for many more variables - and doing so extremely quickly.

Advances in the field, which is really still only in its nascent stages, are expected to have a major impact on areas such as drug discovery, logistics, finance, cybersecurity and almost any other market that needs to process massive volumes of information.

Quantum computers in operation today, however, can not yet consistently outperform classical supercomputers. There are also very few quantum computing resources available for businesses to utilize; OQC has only a small pool of rivals worldwide in this regard.

The most famous milestone held aloft as a marker of progress is that of quantum supremacy, the point at which quantum computers are able to solve problems that would take classical machines an infeasible amount of time.

In October 2019, Google announced it was the first company to reach this landmark, performing a task with its Sycamore prototype in 200 seconds that would take another machine 10,000 years.

But the claim was very publicly contested by IBM, which dialled up its Summit supercomputer (previously the worlds fastest) to prove it was capable of processing the same workload in roughly two and a half days.

Although the quantum supremacy landmark remains disputed, and quantum computers have not yet been responsible for any major scientific discoveries, Wisby is bullish about the industrys near-term prospects.

Were not there yet, but we will be very soon. Were at a tipping point after which we should start to see discoveries and applications that were fundamentally impossible before, realistically in the next three years.

In pharma, that might mean understanding specific molecules, even better understanding water. We hope to see customers working on new drugs that have been enabled by a quantum computer, at least partially, in the not too distant future.

The challenge facing organizations working to push quantum computing to the next level is balancing quality, scale and control. Currently, as quantum systems are scaled and an appropriate level of control asserted, the quality decreases and information is lost.

Achieving all these things in parallel is whats going to unlock a quantum-enabled future, says Wisby.

There is work to be done, in other words, before quantum fulfils its potential. But steps forward in the ability to fabricate superconducting devices at scale and developments in areas such as refrigeration are setting the stage.

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University of Glasgow Partners with Oxford Instruments NanoScience on Quantum Computing – HPCwire

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on University of Glasgow Partners with Oxford Instruments NanoScience on Quantum Computing – HPCwire

Jan. 21, 2021 Today, the University of Glasgow, a pioneering institution in quantum technology development and home of the Quantum Circuits Group, announced its using Oxford Instruments next generation Cryofree refrigerator, Proteox, as part of its research to accelerate the commercialisation of quantum computing in the UK.

Were excited to be using Proteox, the latest in cryogen-free refrigeration technology, and to have the system up and running in our lab, comments Professor Martin Weides, Head of the Quantum Circuits Group. Oxford Instruments is a long-term strategic partner and todays announcement highlights the importance of our close collaboration to the future of quantum computing development. Proteox is designed with quantum scale-up in mind, and through the use of its Secondary Insert technology, were able to easily characterise and develop integrated chips and components for quantum computing applications.

The University of Glasgow, its subsidiary and commercialisation partner, Kelvin Nanotechnology, and Oxford Instruments NanoScience are part of a larger consortium supported by funding from Innovate UK, the UKs innovation agency, granted in April 2020. The consortium partners will boost quantum technology development by the design, manufacture, and test of superconducting quantum devices.

Todays announcement demonstrates the major contribution Oxford Instruments is making towards pioneering quantum technology work in the UK, states Stuart Woods, Managing Director of Oxford Instruments NanoScience. With our 60 years of experience of in-house component production and global service support, we are accelerating the commercialisation of quantum to discover whats next supporting our customers across the world.

Proteox is a next-generation Cryofree system that provides a step change in modularity and adaptability for ultra-low temperature experiments in condensed-matter physics and quantum computing industrialisation. The Proteox platform has been developed to provide a single, interchangeable modular solution that can support multiple users and a variety of set-ups or experiments. It also includes remote management software which is integral to the system design, enabling, for example, the system to be managed from anywhere in the world. To find out more, visit nanoscience.oxinst.com/proteox.

About Oxford Instruments NanoScience

Oxford Instruments NanoScience designs, supplies and supports market-leading research tools that enable quantum technologies, new materials and device development in the physical sciences. Our tools support research down to the atomic scale through creation of high performance, cryogen-free low temperature and magnetic environments, based upon our core technologies in low and ultra-low temperatures, high magnetic fields and system integration, with ever-increasing levels of experimental and measurement readiness.Oxford Instruments NanoScience is a part of the Oxford Instruments plc group.

Glasgows Quantum Circuit Group is found here: https://www.gla.ac.uk/schools/engineering/research/divisions/ene/researchthemes/micronanotechnology/quantumcircuits/

Source: University of Glasgow

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Analysis: Opportunities and Restraint of the Quantum Computing Market KSU | The Sentinel Newspaper – KSU | The Sentinel Newspaper

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on Analysis: Opportunities and Restraint of the Quantum Computing Market KSU | The Sentinel Newspaper – KSU | The Sentinel Newspaper

The globalquantum computing marketis valued at $667.3 million by 2027, surging from $88.2 million in 2019 at a noteworthy CAGR of 30.0%.

Impact Analysis of COVID-19 on the Quantum Computing Market

The global market for quantum computing services is projected to experience considerable impact due to the emergence of the Coronavirus disease (COVID-19). In the fight against COVID-19, quantum computing platform has joined the force of disruptive technologies at the service to better control the global outbreak. The current coronavirus crisis provides a valuable stage for zooming in the real potential applications of quantum computing in highly-impacted and complex situations. The esteemed companies operating in global quantum computing market are trying their best to provide integrated platform amidst the shutdown. For instance, in September 2020, IBM, an American multinational technology and consulting company, announced to conduct IBM Quantum Summit 2020 to discover chemical compounds that could contribute to the fight against COVID-19 pandemic.

On the other hand, quantum computing is very helpful in the discovery of lot of drugs which is a computationally-intensive task. Quantum computing can analyze the the interaction between biomolecules, and this can be helpful in tackling infectious agents such as coronavirus and others. There can be no other better way than to model the problem on a computer and conduct extensive research on the same. For instance in March, D-Wave announced that they are offering quantum computers free to anyone working on the coronavirus crisis for research and other work related to covid19. Therefore, there are many companies expirenced upsurge in growth, throughout the pandemic period. These type of factors may lead lucrative opportunities for the investors in the forecast period.

Quantum Computing Market Analysis:

The enormous growth of the global quantum computing market is mainly attributed to the increasing integration of quantum computing platforms in healthcare. Companies such as 1QB Information Technologies Inc., QxBranch, LLC, D-Wave Systems Inc. are working in the field of material simulation to enhance the accessibility, availability, and usability of quantum computers in material simulation applications. In addition, these players are following strategic collaborations, business expansion and technological innovations to acquire the largest share in the global industry. For instance, in October 2020, Cambridge Quantum Computing announced that they are opening Ph.D. internships with multinational pharmaceutical companies for drug designing through quantum algorithms. These key factors may lead to a surge in the demand for quantum computing services in the global market.

Lack of knowledge and skills may create a negative impact on global quantum computing services throughout the analysis timeframe. This type of factors may hamper the quantum computing market growth during the analysis period.

The global quantum computing industry is growing extensively across various fields, but fastest growing adoption of quantum computing is in agriculture. Quantum computing offers software solutions for agriculture in large businesses and startups all over the world to develop innovative solutions in agriculture. For instance Quantum, a software and data science company launched a software named AgriTech, ths software helps farmers to monitor crops, agricultural fields and it will respond quickly to all the issues related to agriculture. These factors may provide lucrative opportunities for the global quantum computing market, in the coming years.

The consulting solutions sub-segment of the quantum computing market will have the fastest growth and it is projected to surpass $354.0 million by 2027, with an increase from $37.1 million in 2019. This is mainly attributed to its application in blind quantum computing and quantum cryptography playing a major role to secure cloud computing services. Moreover, the consulting solutions segment for quantum computing technologies covers broad range of end-user industries including automotive, space & defense, chemicals, healthcare, and energy & power, and others.

Moreover systems offering sub-segment type will have a significant market share and is projected to grow at a CAGR of 26.7% by registering a revenue of $313.3 million by 2027. This growth is mainly attributed to many government authorities across the developed as well as developing economies that are heavily investing into quantum computing technologies. For instance, in February 2020, the Indian government announces that they are going to invest $1120 million in quantum computing research. This type of government support and scheme is expected to flourish the research for technology under the National Mission of Quantum Technology and Application project. Such government support may bolster the segmental growth, in the analysis period.

Machine learning sub-segment for the quantum computing industry shall have rapid growth and it is anticipated to generate a revenue of $236.9 million by 2027, during the forecast period. This growth is mainly attributed to higher applications of quantum computing in the broad range of areas such as drug discovery, multi-omics data integration, and many among others. These factors may offer lucrative opportunities for the segment, during the forecast timeframe.

The banking and finance sub-segment will be the fastest-growing segment and it is expected to register a revenue of $159.2 million by 2027, throughout the analysis timeframe. The enormously growing quantum computing in the finance sector across the globe has advanced with developments in smartphone technology and computer processing. In addition, the quantum computing platform helps speed up the transactional activities in cost-effective ways. Hence, the quantum computing platform is extensively attracting the interest of BFSI firms that are seeking to boost their data speed, trade, and transactions. Such factors are projected to upsurge the growth of the segment, during the projected timeframe.

The quantum computing market for the Asia-Pacific region will be a rapidly-growing market and it has generated a revenue of $18.1 million in 2019 and is further projected to reach up to $150.3 million by 2027. The demand for quantum computing services is surging in the Asia pacific region, specifically because of the strategic collaboration and development. For instance, in December 2019, D-Wave Systems came in a partnership with Japans NEC for building of quantum apps and hybrid HPC for exploring the capabilities NECs high-performance computers and D-Waves quantum systems. Such partnerships may further surge the growth of market, during the analysis timeframe.

The Europe quantum computing market shall have a dominating market share and is anticipated to reach up to $ 221.2 million by the end of 2027 due to its higher application in fields such as development and discovery of new drugs, cryptography, cyber security, defense sector, among others. In addition, the use of quantum computing will also have positive consequences in development of AI as well as in machine learning. For instance, in July 2019, Utimaco GmbH, software & hardware provider came in partnership with ISARA to utilize post quantum cryptography; this partnership will help their users to have secured and encrypted communication that cannot be decrypted by other computers. These initiatives may create a positive impact on the Asia-pacific quantum computing market, during the forecast period.

Key Market Players

Porters Five Forces Analysis for Quantum Computing Market:

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The Worldwide Quantum Computing Industry will Exceed $7.1 Billion by 2026 – Yahoo Finance

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on The Worldwide Quantum Computing Industry will Exceed $7.1 Billion by 2026 – Yahoo Finance

Dublin, Jan. 19, 2021 (GLOBE NEWSWIRE) -- The "Quantum Computing Market by Technology, Infrastructure, Services, and Industry Verticals 2021 - 2026" report has been added to ResearchAndMarkets.com's offering.

This report assesses the technology, companies/organizations, R&D efforts, and potential solutions facilitated by quantum computing. The report provides global and regional forecasts as well as the outlook for quantum computing impact on infrastructure including hardware, software, applications, and services from 2021 to 2026. This includes the quantum computing market across major industry verticals.

While classical (non-quantum) computers make the modern digital world possible, there are many tasks that cannot be solved using conventional computational methods. This is because of limitations in processing power. For example, fourth-generation computers cannot perform multiple computations at one time with one processor. Physical phenomena at the nanoscale indicate that a quantum computer is capable of computational feats that are orders of magnitude greater than conventional methods.

This is due to the use of something referred to as a quantum bit (qubit), which may exist as a zero or one (as in classical computing) or may exist in two-states simultaneously (0 and 1 at the same time) due to the superposition principle of quantum physics. This enables greater processing power than the normal binary (zero only or one only) representation of data.

Whereas parallel computing is achieved in classical computers via linking processors together, quantum computers may conduct multiple computations with a single processor. This is referred to as quantum parallelism and is a major difference between hyper-fast quantum computers and speed-limited classical computers.

Quantum computing is anticipated to support many new and enhanced capabilities including:

Ultra-secure Data and Communications: Data is encrypted and also follow multiple paths through a phenomenon known as quantum teleportation

Super-dense Data and Communications: Significantly denser encoding will allow substantially more information to be sent from point A to point B

Target Audience:

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ICT Service Providers

ICT Infrastructure Providers

Security Solutions Providers

Data and Computing Companies

Governments and NGO R&D Organizations

Select Report Findings:

The global market for QC hardware will exceed $7.1 billion by 2026

Leading application areas are simulation, optimization, and sampling

Managed services will reach $206 million by 2026 with CAGR of 44.2%

Key professional services will be deployment, maintenance, and consulting

QC based on superconducting (cooling) loops tech will reach $3.3B by 2026

Fastest growing industry verticals will be government, energy, and transportation

Report Benefits:

Market forecasts globally, regionally, and by opportunity areas for 2021 - 2026

Understand how quantum computing will accelerate growth of artificial intelligence

Identify opportunities to leverage quantum computing in different industry verticals

Understand challenges and limitations to deploying and operating quantum computing

Identify contribution of leading vendors, universities, and government agencies in R&D

Key Topics Covered:

1.0 Executive Summary

2.0 Introduction

3.0 Technology and Market Analysis 3.1 Quantum Computing State of the Industry 3.2 Quantum Computing Technology Stack 3.3 Quantum Computing and Artificial Intelligence 3.4 Quantum Neurons 3.5 Quantum Computing and Big Data 3.6 Linear Optical Quantum Computing 3.7 Quantum Computing Business Model 3.8 Quantum Software Platform 3.9 Application Areas 3.10 Emerging Revenue Sectors 3.11 Quantum Computing Investment Analysis 3.12 Quantum Computing Initiatives by Country 3.12.1 USA 3.12.2 Canada 3.12.3 Mexico 3.12.4 Brazil 3.12.5 UK 3.12.6 France 3.12.7 Russia 3.12.8 Germany 3.12.9 Netherlands 3.12.10 Denmark 3.12.11 Sweden 3.12.12 Saudi Arabia 3.12.13 UAE 3.12.14 Qatar 3.12.15 Kuwait 3.12.16 Israel 3.12.17 Australia 3.12.18 China 3.12.19 Japan 3.12.20 India 3.12.21 Singapore

4.0 Quantum Computing Drivers and Challenges 4.1 Quantum Computing Market Dynamics 4.2 Quantum Computing Market Drivers 4.2.1 Growing Adoption in Aerospace and Defense Sectors 4.2.2 Growing investment of Governments 4.2.3 Emergence of Advance Applications 4.3 Quantum Computing Market Challenges

5.0 Quantum Computing Use Cases 5.1 Quantum Computing in Pharmaceuticals 5.2 Applying Quantum Technology to Financial Problems 5.3 Accelerate Autonomous Vehicles with Quantum AI 5.4 Car Manufacturers using Quantum Computing 5.5 Accelerating Advanced Computing for NASA Missions

6.0 Quantum Computing Value Chain Analysis 6.1 Quantum Computing Value Chain Structure 6.2 Quantum Computing Competitive Analysis 6.2.1 Leading Vendor Efforts 6.2.2 Start-up Companies 6.2.3 Government Initiatives 6.2.4 University Initiatives 6.2.5 Venture Capital Investments 6.3 Large Scale Computing Systems

7.0 Company Analysis 7.1 D-Wave Systems Inc. 7.1.1 Company Overview: 7.1.2 Product Portfolio 7.1.3 Recent Development 7.2 Google Inc. 7.2.1 Company Overview: 7.2.2 Product Portfolio 7.2.3 Recent Development 7.3 Microsoft Corporation 7.3.1 Company Overview: 7.3.2 Product Portfolio 7.3.3 Recent Development 7.4 IBM Corporation 7.4.1 Company Overview: 7.4.2 Product Portfolio 7.4.3 Recent Development 7.5 Intel Corporation 7.5.1 Company Overview 7.5.2 Product Portfolio 7.5.3 Recent Development 7.6 Nokia Corporation 7.6.1 Company Overview 7.6.2 Product Portfolio 7.6.3 Recent Developments 7.7 Toshiba Corporation 7.7.1 Company Overview 7.7.2 Product Portfolio 7.7.3 Recent Development 7.8 Raytheon Company 7.8.1 Company Overview 7.8.2 Product Portfolio 7.8.3 Recent Development 7.9 Other Companies 7.9.1 1QB Information Technologies Inc. 7.9.1.1 Company Overview 7.9.1.2 Recent Development 7.9.2 Cambridge Quantum Computing Ltd. 7.9.2.1 Company Overview 7.9.2.2 Recent Development 7.9.3 QC Ware Corp. 7.9.3.1 Company Overview 7.9.3.2 Recent Development 7.9.4 MagiQ Technologies Inc. 7.9.4.1 Company Overview 7.9.5 Rigetti Computing 7.9.5.1 Company Overview 7.9.5.2 Recent Development 7.9.6 Anyon Systems Inc. 7.9.6.1 Company Overview 7.9.7 Quantum Circuits Inc. 7.9.7.1 Company Overview 7.9.7.2 Recent Development 7.9.8 Hewlett Packard Enterprise (HPE) 7.9.8.1 Company Overview 7.9.8.2 Recent Development 7.9.9 Fujitsu Ltd. 7.9.9.1 Company Overview 7.9.9.2 Recent Development 7.9.10 NEC Corporation 7.9.10.1 Company Overview 7.9.10.2 Recent Development 7.9.11 SK Telecom 7.9.11.1 Company Overview 7.9.11.2 Recent Development 7.9.12 Lockheed Martin Corporation 7.9.12.1 Company Overview 7.9.13 NTT Docomo Inc. 7.9.13.1 Company Overview 7.9.13.2 Recent Development 7.9.14 Alibaba Group Holding Limited 7.9.14.1 Company Overview 7.9.14.2 Recent Development 7.9.15 Booz Allen Hamilton Inc. 7.9.15.1 Company Overview 7.9.16 Airbus Group 7.9.16.1 Company Overview 7.9.16.2 Recent Development 7.9.17 Amgen Inc. 7.9.17.1 Company Overview 7.9.17.2 Recent Development 7.9.18 Biogen Inc. 7.9.18.1 Company Overview 7.9.18.2 Recent Development 7.9.19 BT Group 7.9.19.1 Company Overview 7.9.19.2 Recent Development 7.9.20 Mitsubishi Electric Corp. 7.9.20.1 Company Overview 7.9.21 Volkswagen AG 7.9.21.1 Company Overview 7.9.21.2 Recent Development 7.9.22 KPN 7.9.22.1 Recent Development 7.10 Ecosystem Contributors 7.10.1 Agilent Technologies 7.10.2 Artiste-qb.net 7.10.3 Avago Technologies 7.10.4 Ciena Corporation 7.10.5 Eagle Power Technologies Inc 7.10.6 Emcore Corporation 7.10.7 Enablence Technologies 7.10.8 Entanglement Partners 7.10.9 Fathom Computing 7.10.10 Alpine Quantum Technologies GmbH 7.10.11 Atom Computing 7.10.12 Black Brane Systems 7.10.13 Delft Circuits 7.10.14 EeroQ 7.10.15 Everettian Technologies 7.10.16 EvolutionQ 7.10.17 H-Bar Consultants 7.10.18 Horizon Quantum Computing 7.10.19 ID Quantique (IDQ) 7.10.20 InfiniQuant 7.10.21 IonQ 7.10.22 ISARA 7.10.23 KETS Quantum Security 7.10.24 Magiq 7.10.25 MDR Corporation 7.10.26 Nordic Quantum Computing Group (NQCG) 7.10.27 Oxford Quantum Circuits 7.10.28 Post-Quantum (PQ Solutions) 7.10.29 ProteinQure 7.10.30 PsiQuantum 7.10.31 Q&I 7.10.32 Qasky 7.10.33 QbitLogic 7.10.34 Q-Ctrl 7.10.35 Qilimanjaro Quantum Hub 7.10.36 Qindom 7.10.37 Qnami 7.10.38 QSpice Labs 7.10.39 Qu & Co 7.10.40 Quandela 7.10.41 Quantika 7.10.42 Quantum Benchmark Inc. 7.10.43 Quantum Circuits Inc. (QCI) 7.10.44 Quantum Factory GmbH 7.10.45 QuantumCTek 7.10.46 Quantum Motion Technologies 7.10.47 QuantumX 7.10.48 Qubitekk 7.10.49 Qubitera LLC 7.10.50 Quintessence Labs 7.10.51 Qulab 7.10.52 Qunnect 7.10.53 QuNu Labs 7.10.54 River Lane Research (RLR) 7.10.55 SeeQC 7.10.56 Silicon Quantum Computing 7.10.57 Sparrow Quantum 7.10.58 Strangeworks 7.10.59 Tokyo Quantum Computing (TQC) 7.10.60 TundraSystems Global Ltd. 7.10.61 Turing 7.10.62 Xanadu 7.10.63 Zapata Computing 7.10.64 Accenture 7.10.65 Atos Quantum 7.10.66 Baidu 7.10.67 Northrop Grumman 7.10.68 Quantum Computing Inc. 7.10.69 Keysight Technologies 7.10.70 Nano-Meta Technologies 7.10.71 Optalysys Ltd.

8.0 Quantum Computing Market Analysis and Forecasts 2021 - 2026 8.1.1 Quantum Computing Market by Infrastructure 8.1.1.1 Quantum Computing Market by Hardware Type 8.1.1.2 Quantum Computing Market by Application Software Type 8.1.1.3 Quantum Computing Market by Service Type 8.1.1.3.1 Quantum Computing Market by Professional Service Type 8.1.2 Quantum Computing Market by Technology Segment 8.1.3 Quantum Computing Market by Industry Vertical 8.1.4 Quantum Computing Market by Region 8.1.4.1 North America Quantum Computing Market by Infrastructure, Technology, Industry Vertical, and Country 8.1.4.2 European Quantum Computing Market by Infrastructure, Technology, and Industry Vertical 8.1.4.3 Asia-Pacific Quantum Computing Market by Infrastructure, Technology, and Industry Vertical 8.1.4.4 Middle East & Africa Quantum Computing Market by Infrastructure, Technology, and Industry Vertical 8.1.4.5 Latin America Quantum Computing Market by Infrastructure, Technology, and Industry Vertical

9.0 Conclusions and Recommendations

10.0 Appendix: Quantum Computing and Classical HPC 10.1 Next Generation Computing 10.2 Quantum Computing vs. Classical High-Performance Computing 10.3 Artificial Intelligence in High Performance Computing 10.4 Quantum Technology Market in Exascale Computing

For more information about this report visit https://www.researchandmarkets.com/r/omefq7

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The Worldwide Quantum Computing Industry will Exceed $7.1 Billion by 2026 - Yahoo Finance

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Physicists Study How Our Universe Might Have Bubbled Up in the Multiverse – Quanta Magazine

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on Physicists Study How Our Universe Might Have Bubbled Up in the Multiverse – Quanta Magazine

What lies beyond all we can see? The question may seem unanswerable. Nevertheless, some cosmologists have a response: Our universe is a swelling bubble. Outside it, more bubble universes exist, all immersed in an eternally expanding and energized sea the multiverse.

The idea is polarizing. Some physicists embrace the multiverse to explain why our bubble looks so special (only certain bubbles can host life), while others reject the theory for making no testable predictions (since it predicts all conceivable universes). But some researchers expect that they just havent been clever enough to work out the precise consequences of the theory yet.

Now, various teams are developing new ways to infer exactly how the multiverse bubbles and what happens when those bubble universes collide.

Its a long shot, said Jonathan Braden, a cosmologist at the University of Toronto who is involved in the effort, but, he said, its a search for evidence for something you thought you could never test.

The multiverse hypothesis sprang from efforts to understand our own universes birth. In the large-scale structure of the universe, theorists see signs of an explosive growth spurt during the cosmoss infancy. In the early 1980s, as physicists investigated how space might have started and stopped inflating, an unsettling picture emerged. The researchers realized that while space may have stopped inflating here (in our bubble universe) and there (in other bubbles), quantum effects should continue to inflate most of space, an idea known as eternal inflation.

The difference between bubble universes and their surroundings comes down to the energy of space itself. When space is as empty as possible and cant possibly lose more energy, it exists in what physicists call a true vacuum state. Think of a ball lying on the floor it cant fall any further. But systems can also have false vacuum states. Imagine a ball in a bowl on a table. The ball can roll around a bit while more or less staying put. But a large enough jolt will land it on the floor in the true vacuum.

In the cosmological context, space can get similarly stuck in a false vacuum state. A speck of false vacuum will occasionally relax into true vacuum (likely through a random quantum event), and this true vacuum will balloon outward as a swelling bubble, feasting on the false vacuums excess energy, in a process called false vacuum decay. Its this process that may have started our cosmos with a bang. A vacuum bubble could have been the first event in the history of our universe, said Hiranya Peiris, a cosmologist at University College London.

But physicists struggle mightily to predict how vacuum bubbles behave. A bubbles future depends on countless minute details that add up. Bubbles also change rapidly their walls approach the speed of light as they fly outward and feature quantum mechanical randomness and waviness. Different assumptions about these processes give conflicting predictions, with no way to tell which ones might resemble reality. Its as though youve taken a lot of things that are just very hard for physicists to deal with and mushed them all together and said, Go ahead and figure out whats going on, Braden said.

Since they cant prod actual vacuum bubbles in the multiverse, physicists have sought digital and physical analogs of them.

One group recently coaxed vacuum bubble-like behavior out of a simple simulation. The researchers, including John Preskill, a prominent theoretical physicist at the California Institute of Technology, started with the [most] baby version of this problem that you can think of, as co-author Ashley Milsted put it: a line of about 1,000 digital arrows that could point up or down. The place where a string of mainly up arrows met a string of largely down arrows marked a bubble wall, and by flipping arrows, the researchers could make bubble walls move and collide. In certain circumstances, this model perfectly mimics the behavior of more complicated systems in nature. The researchers hoped to use it to simulate false vacuum decay and bubble collisions.

At first the simple setup didnt act realistically. When bubble walls crashed together, they rebounded perfectly, with none of the expected intricate reverberations or outflows of particles (in the form of flipped arrows rippling down the line). But after adding some mathematical flourishes, the team saw colliding walls that spewed out energetic particles with more particles appearing as the collisions grew more violent.

But the results, which appeared in a preprint in December, foreshadow a dead end in this problem for traditional computation. The researchers found that as the resulting particles mingle, they become entangled, entering a shared quantum state. Their state grows exponentially more complicated with each additional particle, choking simulations on even the mightiest supercomputers.

For that reason, the researchers say that further discoveries about bubble behavior might have to wait for mature quantum computers devices whose computational elements (qubits) can handle quantum entanglement because they experience it firsthand.

Meanwhile, other researchers hope to get nature to do the math for them.

Michael Spannowsky and Steven Abel, physicists at Durham University in the United Kingdom, believe they can sidestep the tricky calculations by using an apparatus that plays by the same quantum rules that the vacuum does. If you can encode your system on a device thats realized in nature, you dont have to calculate it, Spannowsky said. It becomes more of an experiment than a theoretical prediction.

That device is known as a quantum annealer. A limited quantum computer, it specializes in solving optimization problems by letting qubits seek out the lowest-energy configuration available a process not unlike false vacuum decay.

Using a commercial quantum annealer called D-Wave, Abel and Spannowsky programmed a string of about 200 qubits to emulate a quantum field with a higher- and a lower-energy state, analogous to a false vacuum and a true vacuum. They then let the system loose and watched how the former decayed into the latter leading to the birth of a vacuum bubble.

The experiment, described in a preprint last June, merely verified known quantum effects and did not reveal anything new about vacuum decay. But the researchers hope to eventually use D-Wave to tiptoe beyond current theoretical predictions.

A third approach aims to leave the computers behind and blow bubbles directly.

Quantum bubbles that inflate at nearly light speed arent easy to come by, but in 2014, physicists in Australia and New Zealand proposed a way to make some in the lab using an exotic state of matter known as a Bose-Einstein condensate (BEC). When cooled to nearly absolute zero, a thin cloud of gas can condense into a BEC, whose uncommon quantum mechanical properties include the ability to interfere with another BEC, much as two lasers can interfere. If two condensates interfere in just the right way, the group predicted, experimentalists should be able to capture direct images of bubbles forming in the condensate ones that act similarly to the putative bubbles of the multiverse.

Because its an experiment, it contains by definition all the physics that nature wants to put in it including quantum effects and classical effects, Peiris said.

Peiris leads a team of physicists studying how to steady the condensate blend against collapse from unrelated effects. After years of work, she and her colleagues are finally ready to set up a prototype experiment, and they hope to be blowing condensate bubbles in the next few years.

If all goes well, theyll answer two questions: the rate at which bubbles form, and how the inflation of one bubble changes the odds that another bubble will inflate nearby. These queries cant even be formulated with current mathematics, said Braden, who contributed to the theoretical groundwork for the experiment.

That information will help cosmologists like Braden and Peiris to calculate exactly how a whack from a neighboring bubble universe in the distant past might have set our cosmos quivering. One likely scar from such an encounter would be a circular cold spot in the sky, which Peiris and others have searched for and not found. But other details such as whether the collision also produces gravitational waves depend on unknown bubble specifics.

If the multiverse is just a mirage, physics may still benefit from the bounty of tools being developed to uncover it. To understand the multiverse is to understand the physics of space, which is everywhere.

False vacuum decay seems like a ubiquitous feature of physics, Peiris said, and I personally dont believe pencil-and-paper theory calculations are going to get us there.

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Physicists Study How Our Universe Might Have Bubbled Up in the Multiverse - Quanta Magazine

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Light-Induced Twisting of Weyl Nodes Switches on Giant Electron Current Useful for Spintronics and Quantum Computing – SciTechDaily

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on Light-Induced Twisting of Weyl Nodes Switches on Giant Electron Current Useful for Spintronics and Quantum Computing – SciTechDaily

Schematic of light-induced formation of Weyl points in a Dirac material of ZrTe5. Jigang Wang and collaborators report how coherently twisted lattice motion by laser pulses, i.e., a phononic switch, can control the crystal inversion symmetry and photogenerate giant low dissipation current with an exceptional ballistic transport protected by induced Weyl band topology. Credit: U.S. Department of Energy, Ames Laboratory

Scientists at the U.S. Department of Energys Ames Laboratory and collaborators at Brookhaven National Laboratory and the University of Alabama at Birmingham have discovered a new light-induced switch that twists the crystal lattice of the material, switching on a giant electron current that appears to be nearly dissipationless. The discovery was made in a category of topological materials that holds great promise for spintronics, topological effect transistors, and quantum computing.

Weyl and Dirac semimetals can host exotic, nearly dissipationless, electron conduction properties that take advantage of the unique state in the crystal lattice and electronic structure of the material that protects the electrons from doing so. These anomalous electron transport channels, protected by symmetry and topology, dont normally occur in conventional metals such as copper. After decades of being described only in the context of theoretical physics, there is growing interest in fabricating, exploring, refining, and controlling their topologically protected electronic properties for device applications. For example, wide-scale adoption of quantum computing requires building devices in which fragile quantum states are protected from impurities and noisy environments. One approach to achieve this is through the development of topological quantum computation, in which qubits are based on symmetry-protected dissipationless electric currents that are immune to noise.

Light-induced lattice twisting, or a phononic switch, can control the crystal inversion symmetry and photogenerate giant electric current with very small resistance, said Jigang Wang, senior scientist at Ames Laboratory and professor of physics at Iowa State University. This new control principle does not require static electric or magnetic fields, and has much faster speeds and lower energy cost.

This finding could be extended to a newquantum computing principle based on the chiral physics and dissipationlessenergy transport, which may run much faster speeds, lower energy cost and high operation temperature. said Liang Luo, a scientist at Ames Laboratory and first author of the paper.

Wang, Luo, and their colleagues accomplished just that, using terahertz (one trillion cycles per second) laser light spectroscopy to examine and nudge these materials into revealing the symmetry switching mechanisms of their properties.

In this experiment, the team altered the symmetry of the electronic structure of the material, using laser pulses to twist the lattice arrangement of the crystal. This light switch enables Weyl points in the material, causing electrons to behave as massless particles that can carry the protected, low dissipation current that is sought after.

We achieved this giant dissipationless current by driving periodic motions of atoms around their equilibrium position in order to break crystal inversion symmetry, says Ilias Perakis, professor of physics and chair at the University of Alabama at Birmingham. This light-induced Weyl semimetal transport and topology control principle appears to be universal and will be very useful in the development of future quantum computing and electronics with high speed and low energy consumption.

What weve lacked until now is a low energy and fast switch to induce and control symmetry of these materials, said Qiang Li, Group leader of the Brookhaven National Laboratorys Advanced Energy Materials Group. Our discovery of a light symmetry switch opens a fascinating opportunity to carry dissipationless electron current, a topologically protected state that doesnt weaken or slow down when it bumps into imperfections and impurities in the material.

Reference: A light-induced phononic symmetry switch and giant dissipationless topological photocurrent in ZrTe5 by Liang Luo, Di Cheng, Boqun Song, Lin-Lin Wang, Chirag Vaswani, P. M. Lozano, G. Gu, Chuankun Huang, Richard H. J. Kim, Zhaoyu Liu, Joong-Mok Park, Yongxin Yao, Kaiming Ho, Ilias E. Perakis, Qiang Li and Jigang Wang, 18 January 2021, Nature Materials. DOI: 10.1038/s41563-020-00882-4

Terahertz photocurrent and laser spectroscopy experiments and model building were performed at Ames Laboratory. Sample development and magneto-transport measurements were conducted by Brookhaven National Laboratory. Data analysis was conducted by the University of Alabama at Birmingham. First-principles calculations and topological analysis were conducted by the Center for the Advancement of Topological Semimetals, an Energy Frontier Research Center funded by the DOE Office of Science.

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Worldwide High Performance Computing Industry to 2026 – The Market is Driven Largely by Simulations, Engineering and Design Solutions – PRNewswire

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on Worldwide High Performance Computing Industry to 2026 – The Market is Driven Largely by Simulations, Engineering and Design Solutions – PRNewswire

DUBLIN, Jan. 25, 2021 /PRNewswire/ -- The "High Performance Computing Market by Component, Infrastructure, Services, Price Band, HPC Applications, Deployment Types, Industry Verticals, and Regions 2021 - 2026" report has been added to ResearchAndMarkets.com's offering.

The High Performance Computing market includes computation solutions provided either by supercomputers or via parallel processing techniques such as leveraging clusters of computers to aggregate computing power. HPC is well-suited for applications that require high performance data computation and analysis such as high frequency trading, autonomous vehicles, genomics-based personalized medicine, computer-aided design, deep learning, and more. Specific examples include computational fluid dynamics, simulation, modeling, and seismic tomography.

This report evaluates the HPC market including companies, solutions, use cases, and applications. Analysis includes HPC by organizational size, software and system type, server type, and price band, and industry verticals. The report also assesses the market for integration of various artificial intelligence technologies in HPC. It also evaluates the exascale-level HPC market including analysis by component, hardware type, service type, and industry vertical.

Select Report Findings:

The market is currently dominated on the demand side by large corporations, universities, and government institutions by way of capabilities that are often used to solve very specific problems for large institutions. Examples include financial services organizations, government R&D facilities, universities research, etc.

However, the cloud-computing based "as a Service" model allows HPC market offerings to be extended via HPC-as-a-Service (HPCaaS) to a much wider range of industry verticals and companies, thereby providing computational services to solve a much broader array of problems. Industry use cases are increasingly emerging that benefit from HPC-level computing, many of which benefit from split processing between localized devices/platforms and HPCaaS.

In fact, HPCaaS is poised to become much more commonly available, partially due to new on-demand supercomputer service offerings, and in part as a result of emerging AI-based tools for engineers. Accordingly, up to 52% of revenue will be directly attributable to the cloud-based business model via HPCaaS, which makes High-Performance Computing solutions available to a much wider range of industry verticals and companies, thereby providing computational services to solve a much broader array of problems.

In a 2020 study, we conducted interviews with major players in the market as well as smaller, lesser known companies that are believed to be influential in terms of innovative solutions that are likely to drive adoption and usage of both cluster-based HPC and supercomputing. In an effort to identify growth opportunities for the HPC market, we investigated market gaps including unserved and underserved markets and submarkets. The research and advisory firm uncovered a market situation in which HPC currently suffers from an accessibility problem as well as inefficiencies and supercomputer skill gaps.

Stated differently, the market for HPC as a Service (e.g. access to high-performance computing services) currently suffers from problems related to the utilization, scheduling, and set-up time to run jobs on a supercomputer. We identified start-ups and small companies working to solve these problems.

One of the challenge areas identified is low utilization but (ironically) also high wait times for most supercomputers. Scheduling can be a challenge in terms of workload time estimation. About 23% of jobs are computationally heavy and 37% of jobs cannot be defined very well in terms of how long jobs will take (within a 3-minute window at best). In many instances, users request substantive resources and don't actually use computing time.

In addition to the scheduling challenge, we also identified a company focused on solving additional problems such as computational planning and engineering. We spoke with the principal of a little-known company called Microsurgeonbot, Inc. (doing business as MSB.ai), which is developing a tool for setting up computing jobs for supercomputers.

The company is working to solve major obstacles in accessibility and usability for HPC resources. The company focuses on solving a very important problem in HPC: Supercomputer job set-up and skills gap. Their solution known as "Guru" is poised to make supercomputing much more accessible, especially to engineers in small to medium-sized businesses that do not have the same resources or expertise as large corporate entities.

Target Audience:

Key Topics Covered:

1 Executive Summary

2 Introduction 2.1 Next Generation Computing 2.2 High Performance Computing 2.2.1 HPC Technology 2.2.2 Exascale Computation 2.2.3 High Performance Technical Computing 2.2.4 Market Segmentation Considerations 2.2.5 Regulatory Framework 2.2.6 Value Chain Analysis 2.2.7 AI to Drive HPC Performance and Adoption

3 High Performance Computing Market Dynamics 3.1 HPC Market Drivers 3.2 HPC Market Challenges

4 High Performance Computing Market Analysis and Forecasts 4.1 Global High Performance Computing Market 2021 - 2026 4.1.1 Total High Performance Computing Market 4.1.2 High Performance Computing Market by Component 4.1.3 High Performance Computing Market by Deployment Type 4.1.4 High Performance Computing Market by Organization Size 4.1.5 High Performance Computing Market by Server Price Band 4.1.6 High Performance Computing Market by Application Type 4.1.7 High Performance Computing Deployment Options: Supercomputer vs. Clustering 4.1.8 High Performance Computing as a Service (HPCaaS) 4.1.9 AI Powered High Performance Computing Market 4.2 Regional High Performance Computing Market 2021 - 2026 4.2.1 High Performance Computing Market by Region 4.2.2 North America High Performance Computing Market by Component, Deployment, Organization, Server Price Band, Application, Industry Vertical, and Country 4.2.3 Europe High Performance Computing Market by Component, Deployment, Organization, Server Price Band, Application, Industry Vertical, and Country 4.2.4 APAC High Performance Computing Market by Component, Deployment, Organization, Server Price Band, Application, Industry Vertical, and Country 4.2.5 MEA High Performance Computing Market by Component, Deployment, Organization, Server Price Band, Application, Industry Vertical, and Country 4.2.6 Latin America High Performance Computing Market by Component, Deployment, Organization, Server Price Band, Application, Industry Vertical, and Country 4.2.7 High Performance Computing Market by Top Ten Country 4.3 Exascale Computing Market 2021 - 2026 4.3.1 Exascale Computing Driven HPC Market by Component 4.3.2 Exascale Computing Driven HPC Market by Hardware Type 4.3.3 Exascale Computing Driven HPC Market by Service Type 4.3.4 Exascale Computing Driven HPC Market by Industry Vertical 4.3.1 Exascale Computing as a Service

5 High Performance Computing Company Analysis 5.1 HPC Vendor Ecosystem 5.2 Leading HPC Companies 5.2.1 Amazon Web Services Inc. 5.2.2 Atos SE 5.2.3 Advanced Micro Devices Inc. 5.2.4 Cisco Systems 5.2.5 DELL Technologies Inc. 5.2.6 Fujitsu Ltd 5.2.7 Hewlett Packard Enterprise 5.2.8 IBM Corporation 5.2.9 Intel Corporation 5.2.10 Microsoft Corporation 5.2.11 NEC Corporation 5.2.12 Nvidia 5.2.13 Rackspace Inc.

6 High Performance Computing Market Use Cases 6.1 Fraud Detection in the Financial Industry 6.2 Healthcare and Clinical Research 6.3 Manufacturing 6.4 Energy Exploration and Extraction 6.5 Scientific Research 6.6 Electronic Design Automation 6.7 Government 6.8 Computer Aided Engineering 6.9 Education and Research 6.10 Earth Science

7 Conclusions and Recommendations

8 Appendix: Future of Computing 8.1 Quantum Computing 8.1.1 Quantum Computing Technology 8.1.2 Quantum Computing Considerations 8.1.3 Market Challenges and Opportunities 8.1.4 Recent Developments 8.1.5 Quantum Computing Value Chain 8.1.6 Quantum Computing Applications 8.1.7 Competitive Landscape 8.1.8 Government Investment in Quantum Computing 8.1.9 Quantum Computing Stakeholders by Country 8.1.10 Other Future Computing Technologies 8.1.11 Market Drivers for Future Computing Technologies 8.2 Future Computing Market Challenges 8.2.1 Data Security Concerns in Virtualized and Distributed Cloud 8.2.2 Funding Constrains R&D Activities 8.2.3 Lack of Skilled Professionals across the Sector 8.2.4 Absence of Uniformity among NGC Branches including Data Format

For more information about this report visit https://www.researchandmarkets.com/r/iedkoq

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Worldwide High Performance Computing Industry to 2026 - The Market is Driven Largely by Simulations, Engineering and Design Solutions - PRNewswire

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3 tech trends that COVID-19 will accelerate in 2021 – VentureBeat

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on 3 tech trends that COVID-19 will accelerate in 2021 – VentureBeat

Spending 2020 under the shadow of a pandemic has affected what we need and expect from technology. For many, COVID-19 accelerated the rate of digital transformation: as employees worked from home, companies needed AI systems that facilitated remote work and the computing power to support them.

The question is, how should companies focus their resources in 2021 to prepare for this changed reality and the new technologies on the horizon? Here are three trends that I predict will see massive attention in 2021 and beyond.

Progress in AI has already reached a point where it can add significant value to practically any business. COVID-19 triggered a massive sense of urgency around digital transformations with the need for remote solutions. According to a report by Boston Consulting Group, more than 80% of companies plan to accelerate their digital transformation, but only 30% of digital transformations have met or exceeded their target value.

Many AI projects are small scale less than a quarter of companies in McKinseys 2020 State of AI reported significant bottom-line impact. This is especially true in industries that have a physical-digital element. For example: There is a great need for remotely operated, autonomous manufacturing facilities, refineries, or even, in the days of COVID-19, office buildings. While the underlying technology is there, achieving scalability remains a concern and digital leaders will have to overcome that barrier in 2021. Scalability barriers include a lack of disciplined approach, enterprise-wide mindset, credible partners, data liquidity, and change management.

Part of the solution here is to create solutions that will be operated by someone who is not necessarily a data scientist, so more people who are domain experts can manage the programs they need. If Tesla invented an autonomous car that only data scientists can drive, whats the point?

Technology needs to empower the end user so they can interact with and manipulate models without having to trudge through the finer points of datasets or code in other words, the AI will do the heavy lifting on the back end, but a user-friendly explanation and UI empowers the end user. For instance, a facilities management executive can manage their global portfolio of buildings from a tablet sitting at a Starbucks. They can have full visibility into operations, occupant experience, and spend, with the ability to intervene in what otherwise would be an autonomous operation.

Deep learning pioneer Dr. Geoffrey Hinton recently told MIT Technology Review that deep learning will be able to do everything i.e. replicate all human intelligence. Deep neural networks have demonstrated extraordinary capabilities to approximate the most relevant subset of mathematical functions and promise to overcome reasoning challenges.

However, I believe there is a step to full autonomy that we must first conquer: what Dr. Manuela Veloso at Carnegie Mellon calls symbiotic autonomy. With symbiotic autonomy, feedback and correction mechanisms are incorporated into the AI such that humans and machines pass information to each other fluidly.

For example, instead of hard feedback (like thumbs up and thumbs down powering your Netflix queue), symbiotic autonomy could look like a discussion with your phones virtual assistant to determine the best route to a destination. Interactions with these forms of AI would be more natural and conversational, with the program able to explain why it recommended or performed certain actions.

With deep learning, neural networks approximate complex mathematical functions with simpler ones, and the ability to consider a growing number of factors and make smarter decisions with fewer computing resources gives them the ability to become autonomous. I anticipate heavy investment in research of these abilities of deep neural networks across the board, from startups to top tech companies to universities.

This step toward fully autonomous solutions will be a critical step towards implementing AI at scale. Imagine an enterprise performance management system that can give you a single pane of visibility and control across a global enterprise that is operating multiple facilities, workers, and supply chains autonomously. It runs and learns on its own but you can intervene and teach when it makes a mistake.

(The question of ethics in autonomous systems will come into play here, but that is a subject for another article.)

Quantum computers have the computational power to handle complex algorithms due to their abilities to process solutions in parallel, rather than sequentially. Lets think of how this could affect development and delivery of vaccines.

First, during drug discovery, researchers must simulate a new molecule. This is tremendously challenging to do with todays high-performance computers, but is a problem that lends itself to something at which quantum computers will eventually excel. The quantum computer could eventually be mapped to the quantum system that is the molecule, and simulate binding energies and chemical transition strengths before anyone ever even had to make a drug.

However, AI and quantum computing have even more to offer beyond creating the vaccine. The logistics of manufacturing and delivering the vaccine are massive computational challenges which of course makes them ripe for a solution that combines quantum computing and AI.

Quantum machine learning is an extremely new field with so much promise, but breakthroughs are needed to make it catch investors attention. Tech visionaries can already start to see how its going to impact our future, especially with respect to understanding nanoparticles, creating new materials through molecular and atomic maps, and glimpsing the deeper makeup of the human body.

The area of growth I am most excited about is the intersection of research in these systems, which I believe will start to combine and produce results more than the sum of their parts. While there have been some connections of AI and quantum computing, or 5G and AI, all of these technologies working together can produce exponential results.

Im particularly excited to see how AI, quantum, and other tech will influence biotechnology as that might be the secret to superhuman capabilities and what could be more exciting than that?

Usman Shuja is VP, General Manager, Connected Buildings, at Honeywell Connected Enterprise.

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3 tech trends that COVID-19 will accelerate in 2021 - VentureBeat

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NTT Research Collaboration to Develop World’s Fastest Coherent Ising Machine – Business Wire

§ January 26th, 2021 § Filed under Quantum Computer Comments Off on NTT Research Collaboration to Develop World’s Fastest Coherent Ising Machine – Business Wire

SUNNYVALE, Calif.--(BUSINESS WIRE)--NTT Research, Inc., a division of NTT (TYO:9432), today announced a collaboration to develop a high-speed Coherent Ising Machine (CIM). The NTT Research Physics & Informatics (PHI) Lab will be paired with Caltechs Department of Applied Physics and Materials Science with the goal of developing and demonstrating the worlds fastest CIM. The principal investigator at Caltech for this four-and-a-half-year joint project is Kerry Vahala, the Jenkins Professor of Information Science and Technology and Applied Physics and Executive Officer for the department of Applied Physics and Materials Science. Professor Vahala has pioneered the use of nonlinear optics in high-Q optical micro-resonators. Leading this effort at NTT Research is PHI Lab Research Scientist, Dr. Myoung-Gyun Suh, an expert in on-chip optical sources and their application to precision measurements.

A CIM is a network of optical parametric oscillators (OPOs) programmed to solve problems that have been mapped to an Ising model, which is a mathematical abstraction of magnetic systems composed of competitively interacting spins, or angular momentums of fundamental particles. The CIM is particularly suited to combinatorial optimization problems that are beyond the capabilities of current computer processors to solve. NTT Research and Caltech will jointly develop a high-speed, miniature CIM, consisting of an on-chip 100 GHz pulsed pump laser source and on-chip parametric oscillator device.

We are delighted at the prospect of working with Professor Vahala to develop an extremely small and high-speed CIM, said NTT Research PHI Lab Director, Yoshihisa Yamamoto. This work will advance our understanding of the CIMs capabilities, map well with ongoing and related work with other institutions, provide new demonstrations of this awesomely powerful new information system and, we hope, set standards for the CIMs speed and size.

The agreement identifies research subjects and project milestones between 2020 and 2025. It anticipates that the Vahala group will develop the pump laser at Caltech, while collaborating with Dr. Suh and his team at NTT Research, who will be focused on the OPO. Professor Vahala and Caltech Department of Applied Physics and Materials Science are known for their precision optical work at the microchip level. Caltech was recently recognized for its contribution to the 2-Photon Optical Clock Collaboration, a multi-institution project that won the OSAs 2020 Paul F. Forman Team Engineering Excellence Award.

The NTT Research PHI Lab has now reached ten joint research projects as part of its long-range goal to radically redesign artificial computers, both classical and quantum. To advance that goal, the PHI Lab has established joint research agreements with seven universities, one government agency and quantum computing software company. This is the second joint research agreement with Caltech. The other institutions of higher education are Cornell University, Massachusetts Institute of Technology (MIT), Stanford University, Swinburne University of Technology, the University of Michigan and the University of Notre Dame. The government entity is NASA Ames Research Center in Silicon Valley, and the private company is 1QBit. In addition to its PHI Lab, NTT Research has two other divisions: its Cryptography & Information Security (CIS) Lab, and Medical & Health Informatics (MEI) Lab.

About NTT Research

NTT Research opened its offices in July 2019 as a new Silicon Valley startup to conduct basic research and advance technologies that promote positive change for humankind. Currently, three labs are housed at NTT Research facilities in Sunnyvale: the Physics and Informatics (PHI) Lab, the Cryptography and Information Security (CIS) Lab, and the Medical and Health Informatics (MEI) Lab. The organization aims to upgrade reality in three areas: 1) quantum information, neuro-science and photonics; 2) cryptographic and information security; and 3) medical and health informatics. NTT Research is part of NTT, a global technology and business solutions provider with an annual R&D budget of $3.6 billion.

NTT and the NTT logo are registered trademarks or trademarks of NIPPON TELEGRAPH AND TELEPHONE CORPORATION and/or its affiliates. All other referenced product names are trademarks of their respective owners. 2020 NIPPON TELEGRAPH AND TELEPHONE CORPORATION

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New research paves the way towards production of green hydrogen – H2 View

§ January 26th, 2021 § Filed under Nanomaterials Comments Off on New research paves the way towards production of green hydrogen – H2 View

Researchers from the Institut national de la recherche scientifique (INRS) and the Institute of Chemistry and Processes for Energy, Environment and Health (ICPEES) have developed technology that produces green hydrogen through the exposure of nanomaterials to sunlight.

The international team has developed specially engineered and structured electrodes that split water molecules under the suns light, a process known as photocatalysis.

The INRS and ICPEES researchers said they were inspired by a natural mechanism: photosynthesis, to create the technology.

Splitting water molecules into oxygen and hydrogen has long been done by electrolysis.

However, industrial electrolysers are very energy-intensive and require large investments, the team explained.

Thanks to high-performance nanomaterials, we can improve the efficiency of water dissociation to produce hydrogen, said INRS Professor My Ali El Khakani.

This clean fuel is becoming increasingly important for the decarbonisation of the heavy-duty trucking and public transportation.

For example, buses using hydrogen as a fuel are already in operation in several European countries and in China. These buses emit water instead of greenhouse gases.

Technology in detail

For maximum use of solar energy, the research team has selected a very abundant and chemically stable material, titanium dioxide (TiO2).

TiO2 is a semiconductor known for being photosensitive to UV-light, which accounts only for 5% of the solar irradiance.

Researchers have used their expertise in the field to first change the atomic composition of TiO2 and extend its photosensitivity to visible light.

They were able to produce electrodes that can absorb up to 50% of the light emitted by the sun.

The researchers then proceeded with the nanostructuration of the electrode to form a network of TiO2 nanotubes that resembles a beehive-like structure.

This method multiplied the effective surface area of the electrode by a factor of 100,000 or more.

Nanostructuring maximises the ratio between surface and volume of a material. For example, TiO2 nanostructures can offer a surface area of up to 50m2 per gram. Thats the surface area of a mid-size flat, Khakani said.

The final step of the electrode elaboration is their nanodecoration. This process consists of depositing catalyst nanoparticles on the otherwise infinite network of TiO2 nanotubes to increase their efficiency of hydrogen production.

To achieve this nanodecoration step, the researchers used the laser ablation deposition technique, a field where Khakani has developed a unique expertise over the last 25 years.

The challenge was not only to control the size, dispersion and anchorage of catalyst nanoparticles on the TiO2 nanotube matrix, but also to find alternatives to the costly iridium and platinum classical catalysts.

This research identified cobalt oxide (CoO), a material that is quite available in Quebecs underground, as effective co-catalysts for splitting water molecules.

A comparison of the two materials showed that CoO nanoparticles enabled a tenfold increase the photocatalytic efficiency of these new nanodecorated electrodes under visible light compared to bare nanotubes.

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