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Nanotechnology in Medical Devices Market 2020: Global Analysis, Share, Trends, Application Analysis and Forecast To 2027 – NJ MMA News

Posted on September 6, 2020 by Danzig

Nanotechnology in Medical Devices Market report has recently added by Healthcare Intelligence Markets which helps to make informed business decisions. This research report further identifies the market segmentation along with their sub-types. Various factors are responsible for the markets growth, which are studied in detail in this research report.

This report gives a detailed and comprehensive understanding of Global Nanotechnology in Medical Devices Market. With precise data covering all key aspects of the existing market, this report offers existing data from leading manufacturers. Understanding of the market condition by compliance of accurate historical data regarding each and every segment for the forecast period is mentioned. Leading factors affecting the growth of the market in a positive and negative perspective is examined and evaluated and projected in the report in detail. Insightful views and case studies from various industry experts help make the report more authentic.

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Top Key Players Profiled in This Report:

Stryker Corporation, 3M Company, St. Jude Medical Inc., Affymetrix Inc.

The key questions answered in this report:

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This research report represents a 360-degree overview of the competitive landscape of the Global Nanotechnology in Medical Devices Market. Furthermore, it offers massive data relating to recent trends, technological advancements, tools, and methodologies. The research report analyzes the Global Nanotechnology in Medical Devices Market in a detailed and concise manner for better insights into the businesses.

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Nanotechnology in Medical Devices Market 2020: Global Analysis, Share, Trends, Application Analysis and Forecast To 2027 - NJ MMA News

With the HUMANS project, a message that space is for everyone – MIT News

Posted on July 20, 2021 by Danzig

When the Voyager 1 and Voyager 2 spacecraft launched in 1977, they each carried a Golden Record, a special project spearheaded by astrophysicist Carl Sagan, in addition to the scientific instruments necessary for their mission to explore the outer reaches of our solar system. Part time capsule, part symbolic ambassador of goodwill, the Golden Record comprises sounds, images, music, and greetings in 59 languages, providing a snapshot of life on Earth for the edification of any intelligent extraterrestrial beings the spacecraft might encounter.

Today, while Voyager 1 and 2 hurtle on through interstellar space more than 14 billion and 12 billion miles away, respectively, the Golden Record and the iconic etching on its cover has inspired a new student-run initiative, the Humanity United with MIT Art and Nanotechnology in Space (HUMANS) project, which aims to send a message that hits a little closer to home: that space is for everyone.

We want to invite the world to submit a message to our project website either text or audio, or both! sharing what space means to them and to humanity in their native languages, says project co-founder Maya Nasr, a graduate student in the Department of Aeronautics and Astronautics. Our goal is to use art and nanotechnology to create a symbol of unity that promotes global representation in space and brings awareness to the need for expanded access to the space sector worldwide.

Nasr and her fellow HUMANS project co-founder Lihui Lydia Zhang '21, a graduate of MIT's Technology Policy Program, are collecting submissions this summer into the fall semester via a submission portal on their website, humans.mit.edu. Taking inspiration from One.MIT, a project to etch more than 270,000 names from the MIT community on a 6-inch wafer, they have partnered with MIT.nano to etch both text and audio waveforms onto a 6-inch disk.

Finally, in collaboration with the Space Exploration Initiative (SEI) at the MIT Media Lab, this new record of our voices will travel to the International Space Station (ISS) on a future mission.

For both Nasr and Zhang, the philosophy space for all is personal. The two bonded over their shared experience as international students whose own passion for space brought them to MIT: Nasr grew up in Lebanon, while Zhang grew up in China. In their journeys in the space sector, they have both faced constant challenges and struggles that limited them from fully contributing their learning and passion.

These challenges generated a shared frustration, but more importantly, a vision that space should be more accessible and representative for more people around the world. As classmates in 16.891 (Space Policy Seminar) with Professor Dava Newman, they came across an open call for proposals for developing suborbital and ISS payloads from the SEI. Nasr and Zhang put their heads together to create their proposal for the HUMANS project.

The International Space Station is one of the few avenues that represents international cooperation in space, but there are still so many countries around the world that aren't included in that representation, says Zhang. The HUMANS project won't solve this problem, but we hope it will be a small step forward to help us advocate for expanding global access to space.

In addition to Nasr and Zhang, HUMANS project collaborators include faculty advisor Jeffrey Hoffman, professor of the practice in aeronautics and astronautics; advisor Ariel Ekblaw, director of SEI; website developer and rising senior Claire Cheng; Xin Lu and Sean Auffinger from SEI; Professor Craig Carter from the Department of Materials Science and Engineering (DMSE); and Georgios Varnavides, a graduate student in DMSE.

To participate in the HUMANS project, visit humans.mit.edu to submit a text and/or audio message. Messages must follow project guidelines to be included on the final disk that will be sent into space.

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With the HUMANS project, a message that space is for everyone - MIT News

Nanoparticle Technology Market to Witness an Outstanding Growth During 2020 | Altair Nanotechnologies Inc., Unidym Inc., Nanosys Inc., PEN Inc.,…

Posted on September 3, 2020 by Danzig

The Global Nanoparticle Technology Market provides up-to-date information on current and future industry trends, enabling readers to identify products and services to increase revenue growth and profitability. This research report provides in-depth study of all key factors affecting global and regional markets, including drivers, imprisonment, threats, challenges, opportunities and industry-specific trends. This report cites worldwide trust and specimens with leading players downstream and upstream analysis.

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This market research report on analyzes the growth prospects for the key vendors operating in this market space including anophase Technologies Corporation, Altair Nanotechnologies Inc., Unidym Inc., Nanosys Inc., PEN Inc., Advanced Diamond Technologies Inc., and Bruker Nano GmbH.

Technological advancements in the Nanoparticle Technology Market has witnessed continuous growth in the past few years and is projected to grow even further during the forecast period. In addition to the complete assessment of the market, the report presents Future trend, Current Growth Factors, attentive opinions, facts, historical data, and statistically supported and industry validated market data.

Asia Pacific is the most advanced market for Nanoparticle Technology. This growth is largely driven by factors such as population perspective improvement and increased awareness. In addition, Latin Americas value-based healthcare services market will expand to a significant CAGR. Brazil and Mexico are leading the value-based health care services market in the region because of the favorable businesses that governments are promoting. Moreover, as research and development develops, market growth in Latin America will accelerate.

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This report provides an effective business outlook, different case studies from various top-level industry experts, business owners, and policymakers have been included to get a clear vision about business methodologies to the readers. SWOT and Porters Five model have been used for analyzing the Global Nanoparticle Technology Market on the basis of strengths, challenges and Global opportunities in front of the businesses.

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Nanotechnology being used to hydrate professional and amateur athletes – WKRN News 2

Posted on December 10, 2020 by Danzig

(DOUG JESSOPS UTAH SUCCESS STORIES ABC4 NEWS SALT LAKE CITY, UT) Everyone from professional athletes to weekend warriors are looking for a competitive edge. How do you push yourself to peak performance? It takes a lot of practiceand a lot of sweat. A Utah based company has gotten big hydrating the athletic community by going smallnano small.

Adam Legas is no stranger to high level athletics. He had a world record in the decathlon at the age of 12 and was featured in Sports Illustrated. His father was a track coach at BYU. Two of his sons have been college football quarterbacks.

We met at a basketball practice facility and told me the backstory of his passion for combining technology and performance. A number of years ago he went to a conference and met with a group that was using something called nanotechnology to help increase crop yields in agriculture.

What is nanotechnology? In December 1959, Richard Feynman, a well-known American physicist, said in his speech during the meeting of the American Physical Society, What would happen if we could arrange the atoms one by one the way we want them?

An article in ISAAA.ORG put it this way; Nanotechnology refers to controlling, building, and restructuring materials and devices on the scale of atoms and molecules. A nanometer (nm) is one-billionth of a meter. To get the sense of the nano scales, the width of the human hair is 80,000 nm and the smallest things visible with the naked human eye are 10,000 nm across. At nano scales, the basic rules of chemistry and physics are not applicable.One example of this technology is the carbon nanotube discovered in 1991, which is only a few nanometers in diameter but can conduct electricity better than copper; 100 times stronger than steel but only one sixth of its weight. Source: http://www.isaaa.org/resources/publications/pocketk/39/default.asp

Leges has taken that passion for performance as the founder and CEO of Nanohydr8, a sports performance drink. He told me; We take electrolytes, vitamins, minerals, amino acids. that the body needs to perform its best and we make them thousands of times smaller, so they absorb instantly and completely in every cell of the body. and makes you perform the best you possibly can.

Why is absorption important? Leges says that their nanotechnology works rapidly to hydrate the body. There is no digestion necessary. It passes directly through the cell membrane. One trip through the blood stream, which is about forty-five seconds, and youve pretty much got the entire body saturated with electrolytes.

Legass company caught the attention of Coach Dave Houle, the winningest coach in American history. Houle said, He did this research, right away I jumped in and said okay I need to know about this for my athletes. Its like a car. You have to put gas in. you gotta put oil in. If you dont it will eventually break down. So will your body if you dont hydrate, you dont eat properly and dont sleep.

Coach Houle is obviously a fan of the product. He exclaimed; Its the very best sports supplement that you can take every age group. Doesnt matter how old you are. It will help your body hydrate.

While Nanohydr8 bills itself as a sports performance shot for professional and amateur athletes, Legas says his product is for anyone that needs to hydrate. To have total cellular absorption of electrolytes makes every cell connect more effectively. So your thoughts, every muscle contraction, everything in your body works more effectively based on how well your body has absorbed electrolytes.

Nanohydr8 is available nationwide online at http://www.nanohydr8.com and in Utah grocery stores including Maceys, Harmons, Fresh Market, Dans and Lins as well as at Holiday Oil gas stations.

With another Utah Success Story, and Nanohydr8, Im Doug Jessop, ABC4 News

To see more of my Doug Jessops Utah Success Stories go to ABC4.com/Success. If you are a business owner and would like more information on being featured, send me an email at DJessop@abc4.com

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Nanotechnology in Medical Equipment Market Size By Analysis, Key Vendors, Regions, Type and Application, and Forecasts to 2027 – NeighborWebSJ

Posted on January 20, 2021 by Danzig

Fort Collins, Colorado: Reports Globe has published the latest study on Nanotechnology in Medical Equipment Market Report Analysis by Size with Future Outlook, Key Players SWOT Analysis and Forecast to 2026. It uses exploratory techniques such as qualitative and quantitative analysis to identify and present data on the target market. Successful sales strategies have been mentioned that will help you do business in record time and multiply customers.

This report is presented clearly and concisely to help you better understand the structure and dynamics of the market. The trends and recent developments in the Nanotechnology in Medical Equipment market were analyzed. The opportunities that lead to the growth of the market were analyzed and presented. Focusing on the global market, the report provides answers to the key questions stakeholders are facing today around the world. Information on market size raises the problem of increasing competitiveness and hampering market-leading sectors and market growth.

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Some of the Important and Key Players of the Global Nanotechnology in Medical Equipment Market:

Nanotechnology in Medical Equipment market research report provides detailed information on the following aspects: Industry Size, Market Share, Growth, Segmentation, Manufacturers and Advancement, Key Trends, Market Drivers, Challenges, Standardization, Deployment Models, Opportunities, Strategies, Future Roadmaps and Annual Forecasts to 2027, etc. The report will help you also in understanding the dynamic structure of the Nanotechnology in Medical Equipment market by identifying and analyzing market segments. The Global Nanotechnology in Medical Equipment 2021 Industry Research Report has given the expected compound annual growth rate (CAGR) as a% of value for a given period of time and clearly helps the user make their decision based on the futuristic chart of the key players on the global Nanotechnology in Medical Equipment market. The report introduces some of the major players in the global Nanotechnology in Medical Equipment market and offers insightful information about the Nanotechnology in Medical Equipment industry such as Business Overview, Nanotechnology in Medical Equipment Market Product Segmentation, Revenue Segmentation, and the Latest Information. Developments.

Additionally, the Nanotechnology in Medical Equipment market report includes a comprehensive strategic review as well as summarized studies of the growth, key factors, and market opportunity by which to evaluate the Nanotechnology in Medical Equipment market and other important market related details on Nanotechnology in Medical Equipment. The investigation of the research report also helps uncover accurate industry statistics depicting the ultimate model of the global Nanotechnology in Medical Equipment market, including various types, applications, market growth structures, and opportunities. In addition, the study of the market research report provides an investigation and analysis of the past and current performance of the regional market that includes regions by department and subdivision. This regional analysis studies various key market parameters such as Nanotechnology in Medical Equipment market growth rate in each region, production volume and capacity, market demand and supply, and return on investment (RoI).

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Some of the key questions answered in the report include-

1. What is the overall structure of the market?2. What was the historical value and what is the forecasted value of the market?3. What are the key product level trends in the market?4. What are the market level trends in the market?5. Which of the market players are leading and what are their key differential strategies to retain their stronghold?6. Which are the most lucrative regions in the market space?

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Global Nanotechnology in Medical Equipment market is segmented based by type, application and region.

Nanotechnology in Medical Equipment Market Segmentation, By Type

Nanotechnology in Medical Equipment Market Segmentation, By Application

The prime objective of this report is to help the user understand the market in terms of its definition, segmentation, market potential, influential trends, and the challenges that the market is facing. Deep researches and analysis were done during the preparation of the report. The readers will find this report very helpful in understanding the market in depth. The data and the information regarding the market are taken from reliable sources such as websites, annual reports of the companies, journals, and others and were checked and validated by the industry experts. The facts and data are represented in the report using diagrams, graphs, pie charts, and other pictorial representations. This enhances the visual representation and also helps in understanding the facts much better.

Global Nanotechnology in Medical Equipmentmarket Key Report Highlights:

This in-depth research documentation offers an illustrative overview of the entire market outlook with details on scope, executive summary, and market segments The report also includes sections on the competitive spectrum, highlighting major players, with a detailed assessment of supply chain management, competition dynamics, and growth objectives. Other crucial details on Porters Five Forces assessment, SWOT analysis, and data triangulation methods have also been included in the report. Other relevant details on production patterns, growth rate, market share of each of the segments have also been pinned in the report. The report also houses crucial analytical details on revenue share and sales projections, besides volumetric estimations of each of the product segments have also been highlighted in the report to encourage unfaltering market decisions and sustainable revenue streams in the global Nanotechnology in Medical Equipment market.A dedicated chapter on COVID-19 analysis has therefore been included in this versatile report to encourage future-ready business discretion aligning with post-COVID-19 market environment.

Major Points from Table of Content:

1. Executive Summary2. Assumptions and Acronyms Used3. Research Methodology4. Nanotechnology in Medical Equipment Market Overview5. Nanotechnology in Medical Equipment Supply Chain Analysis6. Nanotechnology in Medical Equipment Pricing Analysis7. Global Nanotechnology in Medical Equipment Market Analysis and Forecast by Type8. Global Nanotechnology in Medical Equipment Market Analysis and Forecast by Application9. Global Nanotechnology in Medical Equipment Market Analysis and Forecast by Sales Channel10. Global Nanotechnology in Medical Equipment Market Analysis and Forecast by Region11. North America Nanotechnology in Medical Equipment Market Analysis and Forecast12. Latin America Nanotechnology in Medical Equipment Market Analysis and Forecast13. Europe Nanotechnology in Medical Equipment Market Analysis and Forecast14. Asia Pacific Nanotechnology in Medical Equipment Market Analysis and Forecast15. Middle East & Africa Nanotechnology in Medical Equipment Market Analysis and Forecast16. Competition Landscape

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Engineering science and mechanics researcher named International Chair Professor – Penn State News

Posted on February 12, 2021 by Danzig

UNIVERSITY PARK, Pa. Akhlesh Lakhtakia, Evan Pugh University Professor and Charles Godfrey Binder Professor of Engineering Science and Mechanics (ESM), was recently named International Chair Professor of the National Taipei University of Technology (NTUT) in Taiwan.

Akhlesh Lakhtakia, who has served at Penn State for more than 38 years as a professor of engineering science and mechanics, has been named the International Chair Professor of the National Taipei University of Technology in Taiwan.

IMAGE: Penn State College of Engineering

Lakhtakia was chosen in recognition of outstanding academic and research activity in the discipline of nanophotonics, according to NTUT. His term will last three years and will conclude in September 2023.

As part of his duties for the position, Lakhtakia will spend at least one week per year at NTUT to engage with faculty and graduate students, with travel expenses funded by NTUT.

I grew up in a social milieu that had declared the entire world a family millennia ago, so I have always sought out international research collaborations, especially with experimentalists because I am not one, Lakhtakia said. During the next three years, I hope to visit Taipei Tech a few times, meet professors and graduate students, entice some to study at Penn State and take a few Penn State students to Taipei. Taipei Tech faculty are very entrepreneurial, and I hope to think more practically in this new position than I have in the past.

Lakhtakia has collaborated with Yi-Jun Jen, vice president of research at NTUT, since 2009 on various research projects on optical thin films. He previously served in the same position during the 2012-13 academic year.

Jian Hsu, professor of engineering science and mechanics at Penn State and director of the Joint Innovation Partnership in Penn States Interdisciplinary Research Office, nominated Lakhtakia for the position.

As part of the appointment, Lakhtakia and Hsu are currently seeking funding from the National Science Foundation to hold three advanced study institute workshops,one for each year of Lakhtakias appointment, to be held at NTUT with partners from the University of Dayton in Ohio. The workshops will be focused on the science behind optoelectronic displays, which include television screens and virtual reality glasses.

Lakhtakia has served at Penn State for more than 38 years, beginning his tenure in 1983. He is part of the optoelectronics, photonics and electromagnetics research group in the ESM department. His research interests include sculptured thin films, metamaterials, nanophotonics, nanotechnology, electromagnetics, composite materials, chirality, anisotropic and bianisotropic materials, acoustics, micropolar materials, forensic science, and chaos and fractals.

Last Updated February 12, 2021

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Engineering science and mechanics researcher named International Chair Professor - Penn State News

Nanotechnology In Medical Applications Market: Which Region Will Register Higher CAGR? 2022 – Amazing Facts

Posted on October 10, 2020 by Danzig

Theglobal nanomedical marketwas valued at $134.4 billion in 2016. This market is projected to grow at a compound annual growth rate (CAGR) of 14.0% from 2017-2022, and should reach $293.1 billion by 2022 from $151.9 billion in 2017.

Get PDF Sample Copy of this Report to understand the structure of the complete report: (Including Full TOC, List of Tables & Figures, Chart) @https://www.trendsmarketresearch.com/report/sample/12261

Report Scope:

This report discusses the implications of technology and commercial trends in the context of the current size and growth of the pharmaceutical market, both in global terms and analyzed by the most important national markets. The important technologies supporting nanomedicine are reviewed, and the nature and structure of the nanomedicine industry are discussed with profiles of the leading 60+ companies, including recent merger and acquisition (M&A) activity. Five-year sales forecasts are provided for the national markets including the major therapeutic categories of products involved. Specific product categories quantified include diagnostics, cancer, CNS, anti-infective agents, cardiovasculars and anti-inflammatories.

Report Includes:

An overview of the global markets for nanotechnology used in medical applications Analyses of global market trends, with data from 2016, estimates for 2017, and projections of compound annual growth rates (CAGRs) through 2022 A review of technologies involved, in-depth analysis of applications in practice, and evaluation of future or potential applications Information on many significant products in which the nano dimension has made a significant contribution to product effectiveness A look at the regulatory environment, healthcare policies, demographics, and other factors that directly affect nanotechnology used in medicine Analysis of the markets dynamics, specifically growth drivers, inhibitors, and opportunities Coverage of strategies employed by companies specializing in nanomedicine to meet the challenges of this highly competitive market

Summary

Nano-enabled medical products began appearing on the market over a decade ago, and some have become best-sellers in their therapeutic categories. The principal areas in which nanomedical products have made an impact are cancer, CNS diseases, cardiovascular disease and infection control. The Summary Table gives estimates of the historical and current markets for these nanomedicine areas with a forecast through 2022.

The U.S. market is by far the largest in the global nanomedicine market and is set to continue to dominate the world marketplace; however, other national markets are expected to increase their shares over the next five years.

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Reasons for Doing the Study

Nanomedicine is already an established market. Unlike some other potential applications of nanotechnology, which are still largely experimental, nanomedicine has already produced some significant products in which the nano dimension has made a significant contribution to product effectiveness. Now that aspects of the nanomedicine market are established, it is appropriate to review the technology, see its practical applications so far, evaluate the participating companies and look to its future.

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Nanotechnology In Medical Applications Market: Which Region Will Register Higher CAGR? 2022 - Amazing Facts

Nanotechnology in Medical Devices Market by Product Type (Biochip, Implantable Material, Medical Textile & Wounding Dressing, Active Implant…

Posted on October 22, 2020 by Danzig

Trusted Business Insights answers what are the scenarios for growth and recovery and whether there will be any lasting structural impact from the unfolding crisis for the Nanotechnology in Medical Devices market.

Trusted Business Insights presents an updated and Latest Study on Nanotechnology in Medical Devices Market. The report contains market predictions related to market size, revenue, production, CAGR, Consumption, gross margin, price, and other substantial factors. While emphasizing the key driving and restraining forces for this market, the report also offers a complete study of the future trends and developments of the market.The report further elaborates on the micro and macroeconomic aspects including the socio-political landscape that is anticipated to shape the demand of the Nanotechnology in Medical Devices market during the forecast period.It also examines the role of the leading market players involved in the industry including their corporate overview, financial summary, and SWOT analysis.

Get Sample Copy of this Report @ Nanotechnology in Medical Devices Market by Product Type (Biochip, Implantable Material, Medical Textile & Wounding Dressing, Active Implant Devices, and Others) and by Application (Diagnostic, Therapeutic, and Research)-Global Industry Analytics, COVID-19 Business Impact, and Trends, 20202029

Abstract

The report covers a forecast and an analysis of the nanotechnology in medical devices market on a global and regional level. The study provides historical data from 2016 to 2018 along with a forecast from 2021 to 2026 based on revenue (USD Billion). The study includes the drivers and restraints of the nanotechnology in medical devices market along with their impact on the demand over the forecast period. Additionally, the report includes the study of opportunities available in the nanotechnology in medical devices market on a global and regional level.

In order to give the users of this report a comprehensive view of the nanotechnology in medical devices market, we have included a competitive landscape and an analysis of Porters Five Forces model for the market. The study encompasses a market attractiveness analysis, wherein all the segments are benchmarked based on their market size, growth rate, and general attractiveness.

The report provides company market share analysis to give a broader overview of the key players in the market. In addition, the report also covers key strategic developments of the market including acquisitions & mergers, new product launch, agreements, partnerships, collaborations & joint ventures, research & development, and regional expansion of major participants involved in the market on a global and regional basis.

The study provides a decisive view of the nanotechnology in medical devices market by segmenting it on the basis of product type, application, and region. All the segments have been analyzed based on present and future trends and the market is estimated from 2021 to 2026. The regional segment includes the current and forecast demand for North America, Europe, Asia Pacific, Latin America, and the Middle East and Africa with its further classification into major countries including the U.S., UK, Germany, France, China, Japan, India, Brazil, etc.

Some key players of the global nanotechnology in medical devices market include GE Global Research, Merck KGaA, Ferro, AMAG Pharmaceuticals, Capsulution Nanoscience, AstraZeneca, Affymetrix, PerkinElmer, 3M, Starkey Hearing Technologies, Smith & Nephew, St. Jude Medical, Acusphere, and Stryker Corporation.

This report segments the global nanotechnology in medical devices market into:

Global Nanotechnology in Medical Devices Market: By Product Type

Biochip

Lab-On-ChipDNA Microarrays

Implantable Material

Dental Filling MaterialBone Restoring Material

Medical Textile and Wound Dressing

Active Implant Devices

Cardiac Rhythm Management DevicesHearing Aid DevicesRetinal Implants

Others

Global Nanotechnology in Medical Devices Market: By Application

DiagnosticTherapeuticResearch

Global Nanotechnology in Medical Devices Market: By Region

North America

The U.S.

Europe

UKFranceGermany

Asia Pacific

ChinaJapanIndia

Latin America

Brazil

Middle East and Africa

Looking for more? Check out our repository for all available reports on Nanotechnology in Medical Devices in related sectors.

Quick Read Table of Contents of this Report @ Nanotechnology in Medical Devices Market by Product Type (Biochip, Implantable Material, Medical Textile & Wounding Dressing, Active Implant Devices, and Others) and by Application (Diagnostic, Therapeutic, and Research)-Global Industry Analytics, COVID-19 Business Impact, and Trends, 20202029

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UPDATED: Nine UMass Amherst Faculty Recognized Among 2020 World’s Most Highly Cited Researchers – UMass News and Media Relations

Posted on December 9, 2020 by Danzig

AMHERST, Mass. Eight campus researchers in the College of Natural Sciences (CNS) and one in the College of Engineering at the University of Massachusetts Amherst have been recognized among the worlds most highly cited researchers in 2020 by London-based Clarivate Analytics, owner of the Web of Science. They have consistently had high citation counts over a decade.

Now in its seventh year, the citation analysis identifies influential researchers as determined by their peers around the world. They are judged to be influential, and their citation records are seen as a mark of exceptional impact, the company says.

Those recognized at UMass Amherst include Nianquiang Nick Wu, the Armstrong-Siadat Endowed Professor in Materials Science in the chemical engineering department, and environmental chemist Baoshan Xing in CNSs Stockbridge School of Agriculture.

They are joined by three food scientists, Distinguished Professor David Julian McClements, professor and head of the department Eric Decker, and Clydesdale Professor of Food Science Hang Xiao. Distinguished Professor Derek Lovley and Kelly Nevin Lovley, both microbiologists, materials scientist Thomas P. Russell, and Vincent Rotello, the Charles A. Goessmann Professor of Chemistry and a Distinguished Professor of Chemistry, round out the list. All are repeat highly cited honorees.

Wus lab focuses on understanding charge and energy transfer in electrochemical and photoelectric materials and device, with a view to developing high-performance materials and devices by taking the device-by-design strategy.

McClements is internationally known for his cutting-edge work in food design and nanotechnology, including encapsulating nutraceuticals in nanoparticles to preserve nutrients. Deckers research seeks to characterize mechanisms of lipid oxidation, antioxidant protection of foods and the health implications of bioactive lipids. Xiaos lab focuses on molecular mechanisms and interactions of possible disease-preventing nutraceuticals to enhance nutrient bioavailability through food processing and nanotechnology, among other topics.

Lovley and Nevin Lovleys lab, part of the Geobacter Project, works to determine the electron transport chain in these bacteria with a goal to develop techniques to optimize the cells electrical production for better fuel cell performance, among other goals. The Rotello lab takes a multi-disciplinary approach, bringing chemistry, biology and biomedical engineering, to tailor nanomaterials to develop new biological applications.

Russell, internationally known as an inventor, counts his labs research interests in polymer phase-transition, polymers surface and interfacial properties, directed self-assembly processes and using polymers as scaffolds and templates to generate nanoscopic structures. Environmental scientist Xings lab focuses on protecting the environment by maintaining and improving soil and water quality, including the behavior and agricultural application of engineered nanomaterials, and using spectroscopic and analytical instruments to study interactions among organic compounds, natural organic matter and mineral particles.

The highly cited list, announced from the London-based companys United States office in Philadelphia, names a total of about 3,400 highly cited researchers in science and social science fields. The company says it focuses on contemporary research achievement: Only highly cited papers in science and social science journals indexed in the Web of Science Core Collection during the most recent 11-year period are surveyed.

The reports editors point out, There is no unique or universally agreed concept of what constitutes extraordinary research performance and elite status in the sciences and social sciences. Consequently, no quantitative indicators will reveal a list that satisfies all expectations or requirements. Moreover, a different basis or formula for selection would generate a different though likely overlapping list of names. Thus, the absence of a name on our list cannot be interpreted as inferior performance or stature in comparison to those selected.

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UPDATED: Nine UMass Amherst Faculty Recognized Among 2020 World's Most Highly Cited Researchers - UMass News and Media Relations

Healthcare Nanotechnology Market 2020-2026 to Post a CAGR of XX% Consumer research, Analytical Research Report, Market Size & Growth, Business…

Posted on September 22, 2020 by Danzig

Healthcare Nanotechnology Market report would come handy to understand the competitors in the market and give an insight into sales, volumes, revenues in the Healthcare Nanotechnology Industry & will also assists in making strategic decisions. The report also helps to decide corporate product & marketing strategies. It reduces the risks involved in making decisions as well as strategies for companies and individuals interested in the Healthcare Nanotechnology industry. Both established and new players in Healthcare Nanotechnology industries can use the report to understand the Healthcare Nanotechnology market.

In Global Market, the Following Companies Are Covered:

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Analysis of the Market:

It is defined as the study of controlling, manipulating and creating systems based on their atomic or molecular specifications. As stated by the US National Science and Technology Council, the essence of nanotechnology is the ability to manipulate matters at atomic, molecular and supra-molecular levels for creation of newer structures and devices. Generally, this science deals with structures sized between 1 to 100 nanometer (nm) in at least one dimension and involves in modulation and fabrication of nanomaterials and nanodevices.

Nanotechnology is becoming a crucial driving force behind innovation in medicine and healthcare, with a range of advances including nanoscale therapeutics, biosensors, implantable devices, drug delivery systems, and imaging technologies.

Market Analysis and Insights: Global Healthcare Nanotechnology Market

In 2019, the global Healthcare Nanotechnology market size was USUSD 194920 million and it is expected to reach USUSD 372870 million by the end of 2026, with a CAGR of 9.6% during 2021-2026.

Global Healthcare Nanotechnology Scope and Market Size

Healthcare Nanotechnology market is segmented by Type, and by Application. Players, stakeholders, and other participants in the global Healthcare Nanotechnology market will be able to gain the upper hand as they use the report as a powerful resource. The segmental analysis focuses on revenue and forecast by Type and by Application in terms of revenue and forecast for the period 2015-2026.

Segment by Type, the Healthcare Nanotechnology market is segmented into Nanomedicine, Nano Medical Devices, Nano Diagnosis, Others, etc.

Segment by Application, the Healthcare Nanotechnology market is segmented into Anticancer, CNS Product, Anti-infective, Others, etc.

Regional and Country-level Analysis

The Healthcare Nanotechnology market is analysed and market size information is provided by regions (countries).

The key regions covered in the Healthcare Nanotechnology market report are North America, Europe, China, Japan, Southeast Asia, India and Central & South America, etc.

The report includes country-wise and region-wise market size for the period 2015-2026. It also includes market size and forecast by Type, and by Application segment in terms of revenue for the period 2015-2026.

Competitive Landscape and Healthcare Nanotechnology Market Share Analysis

Healthcare Nanotechnology market competitive landscape provides details and data information by vendors. The report offers comprehensive analysis and accurate statistics on revenue by the player for the period 2015-2020. It also offers detailed analysis supported by reliable statistics on revenue (global and regional level) by player for the period 2015-2020. Details included are company description, major business, company total revenue and the revenue generated in Healthcare Nanotechnology business, the date to enter into the Healthcare Nanotechnology market, Healthcare Nanotechnology product introduction, recent developments, etc.

The major vendors include 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, etc.

This report focuses on the global Healthcare Nanotechnology status, future forecast, growth opportunity, key market and key players. The study objectives are to present the Healthcare Nanotechnology development in North America, Europe, China, Japan, Southeast Asia, India and Central & South America.

Healthcare Nanotechnology Market Breakdown by Types:

Healthcare Nanotechnology Market Breakdown by Application:

Critical highlights covered in the Global Healthcare Nanotechnology market include:

The information available in the Healthcare Nanotechnology Market report is segmented for proper understanding. The Table of contents contains Market outline, Market characteristics, Market segmentation analysis, Market sizing, customer landscape & Regional landscape. For further improving the understand ability various exhibits (Tabular Data & Pie Charts) has also been used in the Healthcare Nanotechnology Market report.

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Reasons for Buy Healthcare Nanotechnology Market Report:

In the end, Healthcare Nanotechnology Industry report provides the main region, market conditions with the product price,profit, capacity, production, supply, demand and market growth rateand forecast etc. This report also Present newproject SWOT analysis,investment feasibility analysis, andinvestment return analysis.

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Healthcare Nanotechnology Market 2020-2026 to Post a CAGR of XX% Consumer research, Analytical Research Report, Market Size & Growth, Business...

Nanotechnology Drug Delivery Expected to Expand at a Steady CAGR through 2021 – The Market Records

Posted on September 26, 2020 by Danzig

The Nanotechnology Drug Delivery market research encompasses an exhaustive analysis of the market outlook, framework, and socio-economic impacts. The report covers the accurate investigation of the market size, share, product footprint, revenue, and progress rate. Driven by primary and secondary researches, the Nanotechnology Drug Delivery market study offers reliable and authentic projections regarding the technical jargon.

All the players running in the global Nanotechnology Drug Delivery market are elaborated thoroughly in the Nanotechnology Drug Delivery market report on the basis of proprietary technologies, distribution channels, industrial penetration, manufacturing processes, and revenue. In addition, the report examines R&D developments, legal policies, and strategies defining the competitiveness of the Nanotechnology Drug Delivery market players.

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The following manufacturers are covered:Johnson & JohnsonMerck & CoRocheBayerNovartis PharmaceuticalsPfizerAmgenCelgene CorporationAngiotech PharmaceuticalsCapsulution PharmaAlphaRx Inc.Calando PharmaceuticalsCopernicus TherapeuticsElan CorporationNanotherapeuticsPAR Pharmaceutical

Segment by RegionsNorth AmericaEuropeChinaJapanSoutheast AsiaIndia

Segment by TypeNanocrystalsNanoparticlesLiposomesMicellesNanotubesOthers

Segment by ApplicationNeurologyOncologyCardiovascular/PhysiologyAnti-inflammatory/ImmunologyAnti-infectiveOthers

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Objectives of the Nanotechnology Drug Delivery Market Study:

The Nanotechnology Drug Delivery market research focuses on the market structure and various factors (positive and negative) affecting the growth of the market. The study encloses a precise evaluation of the Nanotechnology Drug Delivery market, including growth rate, current scenario, and volume inflation prospects, on the basis of DROT and Porters Five Forces analyses. In addition, the Nanotechnology Drug Delivery market study provides reliable and authentic projections regarding the technical jargon.

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Nanotechnology Drug Delivery Expected to Expand at a Steady CAGR through 2021 - The Market Records

Nanotechnology Market 2020 Analysis and Forecast to 2027| Post Impact of Worldwide COVID-19 Spread Analysis- Applied Nanotech Holdings Inc., Altair…

Posted on September 26, 2020 by Danzig

The global Nanotechnology Market is showing promising signs that can be explored well in the coming days to achieve a notable valuation by the end of 2020. The process would also witness a growth by % CAGR in between 2020 to 2027. The report is expected to consider the time-frame as the forecast period and it would deal with the market accordingly. Growth-inducing factors have been monitored closely in the report to gauge well the progress of the market. Each factor can play a significant role and has been given proper space on the basis of which the market can devise strategies. It has tracked various associated fields as well to get a proper map of how these end user industries are impacting the market and can take the market forward. The report has credibility as it banks on the expertise of adept researchers who fetch numbers from a pool of information and sieve them as per the requirement. In the process, they have gone through the market by having it analyzed on top-down and bottom-up basis.

The major vendors covered: 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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The segmentation plays a prominent role in dealing with the growth of the Nanotechnology Market where various types and applications are promoting better understanding of the market. This segmentation has a strong foundation in volume-wise and value-wise data which backs the process of understanding the market scenario with numbers. The market has been combed through properly to get all the factors in line. The report has been enriched interviews as a first hand method of getting data. These interviews include chats with top market players, market analysts, distributors, people in the field of research and development and others owing to which the reliability of the report has increased significantly.

Regional market analysis of the report has backed the study of different regions as an attempt to understand growth pockets that can be beneficial for the market. The regional analysis has import, export, and other processes covered. Players who are getting involved in the market for a better growth are looking for these growth pockets to capitalize on the opportunities provided and find new scopes for growth. Certain countries have been tracked in detail to monitor them closely as they can be major markets in the coming years. Benefits like better infrastructure, cost-effective labor, access to raw materials, they offer have become luring factors for many market players and they want to expand their business to these regions to increase their profit margin.

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

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Nanotechnology Market 2020 Analysis and Forecast to 2027| Post Impact of Worldwide COVID-19 Spread Analysis- Applied Nanotech Holdings Inc., Altair...

Aerospace Nanotechnology Market Forecast Revised in a New Market Research Store Report as COVID-19 Projected to Hold a Massive Impact on Sales in…

Posted on September 20, 2020 by Danzig

Aerospace Nanotechnology Market Manufacturers, Product Types and Applications Analysis 2020-2026

A recent report published offered an informative elucidation of the industry in its brief overview of the Aerospace Nanotechnology market. The review discusses the very concept of the product/service as well as several implementations in different end-user industries of such a product or service. It also involves the study of the technologies used for the same in the development and management of such products/services. The global market report on the Aerospace Nanotechnology market has provided an in-depth study for the period between 2020 and 2026. The report on the Aerospace Nanotechnology market analyses novel and leading trends in the industry, and includes a competitive analysis as well as a detailed regional analysis.

Request a Sample Copy at: https://www.reportsandmarkets.com/sample-request/global-aerospace-nanotechnology-market-research-by-type-end-use-and-region-covid-19-version?utm_source=thedailychronicle&utm_medium=34

The final report will add the analysis of the Impact of Covid-19 in this report Aerospace Nanotechnology industry.

Adapting to the recent novel COVID-19 pandemic, the impact of the COVID-19 pandemic on the global Aerospace Nanotechnology market is included in the present report. The influence of the novel coronavirus pandemic on the growth of the Aerospace Nanotechnology market is analyzed and depicted in the report.

Some of the companies competing in the Aerospace Nanotechnology market are: Airbus, Glonatech, Flight Shield, Lockheed Martin, Lufthansa Technik, tripleO Performance Solution, Zyvex Technologies, CHOOSE NanoTech, General Nano, HR TOUGHGUARD, and Metamaterial Technologies

The report scrutinizes different business approaches and frameworks that pave the way for success in businesses. The report used Porters five techniques for analyzing the Aerospace Nanotechnology Market; it also offers the examination of the global market. To make the report more potent and easy to understand, it consists of info graphics and diagrams. Furthermore, it has different policies and development plans which are presented in summary. It analyzes the technical barriers, other issues, and cost-effectiveness affecting the market.

Global Aerospace Nanotechnology Market Research Report 2020 carries in-depth case studies on the various countries which are involved in the Aerospace Nanotechnology market. The report is segmented according to usage wherever applicable and the report offers all this information for all major countries and associations. It offers an analysis of the technical barriers, other issues, and cost-effectiveness affecting the market. Important contents analyzed and discussed in the report include market size, operation situation, and current & future development trends of the market, market segments, business development, and consumption tendencies. Moreover, the report includes the list of major companies/competitors and their competition data that helps the user to determine their current position in the market and take corrective measures to maintain or increase their share holds.

What questions does the Aerospace Nanotechnology market report answer pertaining to the regional reach of the industry

The report claims to split the regional scope of the Aerospace Nanotechnology market into North America, Europe, Asia-Pacific, South America & Middle East and Africa. Which among these regions has been touted to amass the largest market share over the anticipated duration

How do the sales figures look at present How does the sales scenario look for the future

Considering the present scenario, how much revenue will each region attain by the end of the forecast period

How much is the market share that each of these regions has accumulated presently

How much is the growth rate that each topography will depict over the predicted timeline

The scope of the Report:

The report segments the global Aerospace Nanotechnology market on the basis of application, type, service, technology, and region. Each chapter under this segmentation allows readers to grasp the nitty-gritties of the market. A magnified look at the segment-based analysis is aimed at giving the readers a closer look at the opportunities and threats in the market. It also address political scenarios that are expected to impact the market in both small and big ways.The report on the global Aerospace Nanotechnology market examines changing regulatory scenario to make accurate projections about potential investments. It also evaluates the risk for new entrants and the intensity of the competitive rivalry.

Reasons for Read this Report

This report provides pin-point analysis for changing competitive dynamics

It provides a forward looking perspective on different factors driving or restraining market growth

It provides a six-year forecast assessed on the basis of how the market is predicted to grow

It helps in understanding the key product segments and their future

It provides pin point analysis of changing competition dynamics and keeps you ahead of competitors

It helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments

TABLE OF CONTENT:

Chapter 1: Aerospace Nanotechnology Market Overview

Chapter 2: Global Economic Impact on Industry

Chapter 3: Aerospace Nanotechnology Market Competition by Manufacturers

Chapter 4: Global Production, Revenue (Value) by Region

Chapter 5: Global Supply (Production), Consumption, Export, Import by Regions

Chapter 6: Global Production, Revenue (Value), Price Trend by Type

Chapter 7: Global 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: Aerospace Nanotechnology Market Effect Factors Analysis

Chapter 12: Global Aerospace Nanotechnology Market Forecast to 2026

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CWRU-led research team receives $3 million grant to fight breast cancer with nanotech, immunotherapy – Crain’s Cleveland Business

Posted on September 20, 2020 by Danzig

A team of scientists led by a researcher at Case Western Reserve University recently received a $3 million grant from the National Cancer Institute (NCI) to support their work combining nanotechnology with immunotherapy to fight deadly metastatic breast cancer.

The novel technique sends nanoparticles into the body to wake up "cold" tumors so they can be located and then neutralized by immune cells, according to a news release.

Immunotherapy uses drugs to help the immune system fight cancer, rather than chemotherapy, which uses drugs to kill cancer cells. Nanotechnology manipulates matter at the nanoscale (dimensions measured by nanometers or one-billionth of a meter) to create structures, devices and systems for medical uses and beyond, according to the release.

Efstathios "Stathis" Karathanasis, an associate professor of biomedical engineering at CWRU, is leading the team, which includes researchers from Cleveland Clinic and Duke University.

The five-year grant supports the team as it continues its research, initially on animal models with an eye toward human trials. Much of the groundwork behind the project has been published in a paper in Cancer Research, the official journal of the American Association for Cancer Research.

"We believe our work shows that this combination of nanotechnology with cancer immunotherapy encompasses an inherent promise to treat the most hard-treat metastatic cancers," Karathanasis said in a provided statement. "Our work has been to design a nanoparticle that triggers an activation of antigen-presenting cells in the tumor. Within a few weeks, the patient can have adapted T cells that recognize and fight the cancer."

Breast cancer, which causes more than 42,000 deaths a year, is the second-leading cause of death from cancer in women in the United States; skin cancer is the first. Also called stage IV cancer, metastatic breast cancer causes the vast majority of those deaths. It is breast cancer that has spread to another part of the body most commonly, the liver, brain, bones or lungs, according to the release.

Metastatic cancer cells are often considered stealth killers, "ticking time bombs that remain dormant until they emerge as incurable tumors," said Karathanasis, an engineer by training who began work on nanotechnology solutions to medical problems about two decades ago.

One of the most difficult aspects of diagnosing and treating metastatic breast cancer is that cells often cannot be found until it's too late for successful treatment, according to the release. Though the science continues to develop and offer hope for cancer patients, immunotherapy is only successful about 20% of the time. When it works, it's "highly effective," Karathanasis said in the release.

"But cancer cells hijack and recruit the local immune cells in tumors making them dysfunctional, unfortunately," Karathanasis said. "If there are no danger signals from the body, the immune system doesn't know there is an enemy."

When a tumor appears in the body, immune cells should recognize it and send out cells to try to kill it, as well as "memorize" it, so they can come back and kill it again in recurrences, Karathanasis said in the release. But tumors adapt and repress immune cells so the immune system can't find it.

Karathanasis has developed a way to get the tumor to notify the body's immune system of its presence, according to the release. The team have engineered a nanoparticle to "trigger the antigen-presenting cells in the tumor to start generating fresh signals," he said.

"We are unlocking the immune system, which has been repressed by the tumor," Karathanasis said. "We regenerate the cycle of immunity."

The research team also includes, according to the release: William Schieman, the Goodman-Blum Professor in Cancer Research at Case Western Reserve School of Medicine; Li Lily Wang, associate staff at Cleveland Clinic Lerner Research Institute; and Christopher Hoimes, of Duke University School of Medicine.

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CWRU-led research team receives $3 million grant to fight breast cancer with nanotech, immunotherapy - Crain's Cleveland Business

2020-2021 NNI NanoEHS Webinars Will Begin in November 2020 – Lexology

Posted on September 16, 2020 by Danzig

According to the Summer 2020 edition of the National Nanotechnology Coordination Office (NNCO) Quarterly Newsletter, the 2020-2021 National Nanotechnology Initiative (NNI) nanomaterial environmental, health, and safety (nanoEHS) webinars will begin in November 2020. According to the Newsletter, the Nanotechnology Environmental and Health Implications (NEHI) Working Group is planning nanoEHS webinars to present progress in the following areas: nanomaterial measurement infrastructure; human exposure assessment; human health; environment; risk assessment and risk management methods; and informatics and modeling. The Newsletter notes that these are the research areas identified in the NNI Environmental, Health, and Safety Research Strategy (NNI EHS Research Strategy). The inaugural webinar will provide an overview of the research environment when the NNI EHS Research Strategy was developed, the major questions posed, and how collaborations and networks created a research infrastructure to address these questions. NNI will post more information at https://www.nano.gov/publicwebinars as it becomes available.

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2020-2021 NNI NanoEHS Webinars Will Begin in November 2020 - Lexology

Kim Dunbar Explains Nanotechnology Applications and Where Its Likely to Lead – Yahoo Finance

Posted on September 16, 2020 by Danzig

Kim Renee Dunbar Elaborates on Nanotechnology Applications and Where They Might lead

COLLEGE STATION, TX / ACCESSWIRE / September 15, 2020 / Kim Dunbar is a Distinguished Professor of Chemistry at Texas A & M University. She's won numerous awards for her work in inorganic chemistry. She currently focuses on coordination chemistry, which opens up many avenues to explore. She is one of the researchers leading the way in nanotechnology. She states that nanotech is currently used in various applications, which is expected to increase.

What is Nanotech?

Nanotech involves controlling matter at the molecular level. Kim Dunbar explains this gives scientists options that were once the stuff of science fiction. Nanotech spans all scientific disciplines, including chemistry, engineering, and materials science. Nanoparticles are measured in nanometers. There are 25,400,000 nanometers in an inch.

Kim Dunbar Explains Nanotech Today

Kim Dunbar states that nanotechnology is now commonly used in the medical field. Nano drugs are one exciting application. Nanotechnology allows drugs to be delivered to highly targeted areas. This can lead to more effective treatments with fewer side effects than traditional therapies. Nanoscience ts also targeted at increasing computing power and memory in electronic devices while scaling down the size. Nanotechnology has usage in batteries and solar power cells. It is also being used in surprising applications in food. According to Kim Renee Dunbar, clay nanoparticles are being used to prevent gases from entering food packaging.

The Future of Nanotech

When it comes to the future of nanotech, Kim Renee Dunbar says there are sure to be surprises. One interesting application is sensors for food. It is hypothesized that carbon nanotubes could be placed on food packaging to detect food spoilage. Nanosensors will also be able to detect bacteria in food packaging plants themselves. This could provide safety testing at a much quicker and cost-effective rate than lab testing.

Kim Dunbar says there are many medical applications on the horizon as well. One of these is nanotech sensors that are injected into the body. This would allow doctors to monitor the patient or check for conditions in a less invasive way. There is an almost endless amount of possibilities for uses of these "electroceuticals."

Story continues

Self-healing materials are another concept Kim Renee Dunbar finds fascinating. Nanoparticles could go where they were needed in the material to fill in cracks or worn areas. They could also be used as sensors to detect structural damage to bridges and nuclear power plants before the potential damage can pose a danger.

While these applications may sound like science fiction, Kim Renee Dunbar says they are closer than you think. It's hard to imagine the changes that nanotechnology will eventually bring about as research continues, but it's a safe bet that the world will benefit from these emerging technologies.

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SOURCE: Kim Dunbar

View source version on accesswire.com: https://www.accesswire.com/606145/Kim-Dunbar-Explains-Nanotechnology-Applications-and-Where-Its-Likely-to-Lead

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Kim Dunbar Explains Nanotechnology Applications and Where Its Likely to Lead - Yahoo Finance

Breath of Life: Multidisciplinary research project builds a screening tool for lung cancer – Binghamton University

Posted on September 20, 2020 by Danzig

By Jennifer Micale

September 14, 2020

Lung cancer kills more people than any other cancer type because it sneaks in silently, often presenting few symptoms until the disease is too advanced to cure. Only 16% of lung cancer cases are diagnosed at any early stage and more than half of people who receive a diagnosis die within a year, according to the American Lung Association.

Those are statistics that Chemistry Professor Chuan-Jian CJ Zhong would like to change.

Zhong is an expert on sensors, super-small devices that can detect external molecules. He has worked in the sensor field for around 15 years, focused on a variety of uses, from detecting the chemicals in air pollution to health indicators. For the past six years, he and his research team have been working to develop a sensor that can detect the biomarkers from cancer from human breath. That could lead to an early screening tool in a medical setting potentially saving lives.

The multidisciplinary project, which also involves Systems Science and Industrial Engineering Professor Susan Lu from the Thomas J. Watson College of Engineering and Applied Science, received seed funding from the Harpur College Advocacy Council Faculty Research Grant Endowment and the Watson-UHS Collaboration Seed Grant.

Typically, cancer is discovered at too late a stage, Zhong says. Early detection can lead to a higher survival rate.

Human breath contains volatile organic compounds that provide clues to the inner workings of the body. For example, diabetic patients can release acetones in their breath, indicating high glucose levels and a potentially life-threatening condition called ketoacidosis. Other compounds are associated with conditions such as cancer.

A sensor is basically a transducer that sends chemical information to something readable, Zhong explains.

Graduate students Stacey Shan Wang and Sally Guojun Shang with Chuan-Jian Zhong, professor of chemistry, photographed at Zhongs laboratory in the Smart Energy Building at the Innovative Technologies Complex. Image Credit: Jonathan Cohen.

You can use sensors in a variety of ways, such as detecting biomarkers in a blood sample. Zhongs cancer-detection prototype operates like a whistle: The patient blows into the device, sending the breaths volatile compounds across the sensors. If the biomarker is detected, it creates an electrical signal that can be read on a portable handheld device.

In addition to the sensor, hardware and electronics, the system also requires a database of information that the system can read. On that end, Zhongs research team is collaborating with Lu, an expert in database pattern recognition. Along with building a bank of information for the device to read, this part of the project involves using artificial intelligence to analyze the data.

The human breath is very complex. Its affected by age, whether youre a smoker or not, your medical history; there are many aspects to it. Thats why we need a database to do the analysis, Zhong explains.

Susan Lu, professor of Systems Science and Industrial Engineering, with her graduate students, Dong Dinh and Behnaz Malaei, in Chuan-Jian Zhongs laboratory in the Smart Energy Building at the Innovative Technologies Complex. Image Credit: Jonathan Cohen.

The medical signal is complicated, Zhong says. Some patients may have an early stage, some a later stage, or they might be on different medications, but the database will allow us to analyze the data for cancer screening. We have the portable device; whats missing is the data we can collect from patients. We hope to get more funding and expand this.

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Breath of Life: Multidisciplinary research project builds a screening tool for lung cancer - Binghamton University

Global Organic Field-effect Transistor (OFET) Market Business Prospect and Industry Research Report 2025 || University of California, Santa Barbara,…

Posted on September 16, 2020 by Danzig

The Global Organic Field-effect Transistor (OFET) Market 2020 Research Report is a professional and detailed study about the current and forecast state With COVID 19 Impact Analysis of the market.

Eon Market Research offers a 360-degree view of the Global Organic Field-effect Transistor (OFET) Market and offers accurate forecasting and also covers competitive landscapes, with in-depth market segmentation including type segment, industry segment, channel segment, etc., vital trends and strategic recommendations to enable our clients. It also includes different clients data, which is very crucial for the manufacturers.

The historical information of the global Organic Field-effect Transistor (OFET) market and evaluate the present market scenario based on the key factors determining the trajectory of this Organic Field-effect Transistor (OFET) market with the help of primary and secondary data, the Organic Field-effect Transistor (OFET) market research report projects the future and makes a valid prediction. Moreover, the Organic Field-effect Transistor (OFET) industry research report also incorporates insightful information from industry specialists to uplift readers to make well-informed business decisions. The Organic Field-effect Transistor (OFET) market report also uses SWOT analysis and Porters five forces analysis to shed light on the important elements of the Organic Field-effect Transistor (OFET) Market.

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Major Players Are:

University of California, Santa Barbara, Catalan Institute of Nanoscience and Nanotechnology, Graphenea and Chalmers University of Technology, National Institute of Material Sciences And More

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By Type:

N type transistorP type transistor

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Flexible OLED displaysSmart cardsTags

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The report covers significant viewpoints:

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Growth Opportunities for Emerging Insulation Materials, 2020: Enhancing Performance of Thermal Insulating Material Through Composite Technology and…

Posted on September 16, 2020 by Danzig

DUBLIN--(BUSINESS WIRE)--The "Growth Opportunities for Emerging Insulation Materials" report has been added to ResearchAndMarkets.com's offering.

Growth Opportunities for Emerging Insulation Materials provides a review of both current and emerging innovations on insulation materials and their potential adoption as cost-efficient and high-performance materials within industries. The research service highlights the key factors that influence R&D and adoption efforts across various geographic regions. It also provides a list of noteworthy innovations and perspectives across the globe and highlights key innovators.

Insulation materials, either in fibrous, cellular or granular form, are adopted across industries such as building and construction, packaging, electronics, consumer goods, energy, manufacturing, oil & gas, aerospace, and automotive. Apart from being a thermal barrier, the materials function as anticorrosion, anti-flame, enhance the durability, and anti-microbial protection. The insulation system comes in the form of solids, liquids or gases, helping to enhance the quality as well as reduce the tendency of energy or heat loss of the insulated product.

However, most of the traditional insulation materials, such as fiberglass, mineral wools, polyurethane foam and aluminum foil have limitations either in the form of its mechanical properties whereby it tends to break or crack when being exposed to extreme surroundings or in its thermal or chemical properties where constant exposure to extreme surroundings reduces its effectiveness. These insulation materials have also contributed to health and environment issues, such inhalation during the application of fiberglass lead could lead to lung diseases as well as the release of chlorine atoms from the polyurethane foam which leads to the thinning of the ozone layer and global warming.

Stakeholders such as the University of California, US Uppsala University, Sweden, Japan Insulation, Japan, and Showa Denko Packaging Co. Ltd., Japan have introduced approaches to develop sustainable alternatives in insulation materials. Across industries, stakeholders, such as Knauf Insulation, US, IMT Mines Als, France, Showa Denko Packaging Co. Ltd., Japan, Terreal Malaysia Sdn Bhd, Malaysia have introduced technologies such as aerogel composites, bio-based composites, aluminum-polyester composites, and ceramic nanofiber and nanocellulose as sustainable alternatives for developing cost-efficient and high-performance insulation technology.

Key Topics Covered:

1.0 Executive Summary

1.1 Research Scope

1.2 Research Methodology

1.3 High Interest on Enhancing the Performance of Insulation Materials throughout the Regions

1.4 The Multi-functional Insulation Material Exists in three Different Structures

1.5 The Limitations and Opportunities of the Insulation Materials

1.6 Factors influencing the Continuous Growth of Insulation Materials

1.7 High Performance and Environmental Friendly Features Act as Key Factors for Material Adoption

2.0 Technology Overview

2.1 Insulation Material: Definitions

2.2 Fibrous Insulation is the most Mature Insulation Technology

2.3 Cellular Insulation Exists in both Solid and Liquid Insulation Structures

2.4 Granular Insulation has Opportunities for Developing Environmentally Friendly Insulation

2.5 Enabling High-performance Reflective Insulation through Composite Technology Development

2.6 Gas Insulation Has been Adopted for Enhancing other Types of Insulation Systems

3.0 Industry Assessment

3.1 Overview of Insulation Material Technology

3.2 Adoption of Aerogel Composite as Environmental Friendly Alternative of Insulation Technology in the Building and Construction Industry

3.3 Continuous Interest Within the European Regions on Aerogel and Nanotechnology as Emerging Insulation Technology in Built Environment

3.4 Certification for Insulation System Building and Construction Industries Across the North America and Europe Regions

3.5 Emerging Participants in Insulating Material in the Building and Construction Industry

3.6 Developing High Performance Insulation System from Recyclable Material

3.7 Increasing Interest in Developing High Performance Insulation System in the Automotive, Transportation, and Aerospace Industries

3.8 Emerging Participants in Insulating Material in the Automotive & Transportation, Aerospace & Defense Industries

3.9 Future Potential of Sustainable Alternative of Thermal Insulation

3.10 Enhancing the Performance of Insulation Technology in Electronics, Energy & Power System Industries Through Bio-based Composite

3.11 Emerging Participants in Innovations in Insulating Material the in Electronic, Energy & Power System Industries

3.12 The Future Potential of Lightweight, High Performance Insulation System

3.13 High Research Interest of Biocomposite in Insulation System for the Packaging Industry in the European Region

3.14 Emerging Participants in Insulating Material in Packaging

3.15 Future Adoption of Fibrous Insulation in the Packaging Industry

3.16 Gradual Interest in Adoption of Composite and Nanotechnology Alternative Within European Regions in the Manufacturing, Oil and Gas Industries

3.17 Emerging Participants in the Manufacturing, Oil and Gas Industries

3.18 The Adoption of Lightweight and Energy Saving Insulation System in the Manufacturing Industry

4.0 Innovations Indicators

4.1 Patent Activity on Insulation Materials During 2017 to 2019

4.2 High Interest on Research Studies in China

4.3 High Government Funding Across the Regions

4.4 High Interest in Product Development Across the Regions

4.5 High Interest in Technology Development in the Asia-Pacific Region

4.6 Continuous Efforts in Driving Circular Approach in Industries

5.0 Future Prospects for Emerging Insulation

5.1 Comparative Analysis of Emerging Insulation Materials in the Next Five Years

5.2 Comparative Analysis of Potential Insulation Materials in the Next Ten Years

5.3 Emerging Insulation Materials Production- Technology Comparative Analysis

6.0 Growth Opportunities for Insulation Materials

6.1 Future Potential in Developing Circular Economy Within the High Performance Insulation Materials

6.2 Strategic Imperatives: Critical Success Factors

6.3 Growth Opportunities: Enhancing Performance of Thermal Insulating Material Through Composite Technology and Nanotechnology

6.4 Increasing Number of Aerogel Composite Innovations and Nanotechnology Across the Regions

6.5 Gradual Interest for Bio-based Insulation System Across the Regions

6.6 High Interest in Adoption of Recycled Materials as Emerging Insulation Technology in European and Asia-Pacific Regions

7.0 Key Contacts

Companies Mentioned

For more information about this report visit https://www.researchandmarkets.com/r/jmpq0s

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Growth Opportunities for Emerging Insulation Materials, 2020: Enhancing Performance of Thermal Insulating Material Through Composite Technology and...

Iran among world’s top clusters of science and technology – Tehran Times

Posted on September 12, 2020 by Danzig

TEHRAN Iran ranked 43rd among 100 most vibrant clusters of science and technology (S&T) worldwide for the third consecutive years, according to the Global Innovation Index (GII) 2020 report.

Every year, the Global Innovation Index ranks the innovation performance of more than 130 economies around the world. The GII 2020 with a theme of Who Will Finance Innovation? discusses how the state of innovation finance is changing rapidly. This chapter reveals and analyzes the annual GII innovation rankingsby top-performing economies, regions, and innovation components.

The total ranking of Iran is 67 in the GII 2020 report, which was 61 in 2019.

The top 100 clusters are located in 26 countries, 6 of which including Brazil, China, India, Iran, Turkey, and Russia represent middle-income economies. While, the U.S. continues to host the largest number of clusters (25), followed by China (17), Germany (10), and Japan (5).

Iran also experienced a three-level improvement compared to 2019.

Tehran also ranked 9th among top regions (clusters) of science and technology in middle-income countries, surpassing Berlin, Zurich, Bangalore, Delhi, Lausanne, Vienna, Istanbul, Sao Paulo, Ankara, and Mumbai.

In 2020, Tokyo-Yokohama is the top-performing cluster again due to the excellent performance of this region in patent registration.

The ranking published by the WIPO, which is the global forum for intellectual property services, policy, information, and cooperation. It is a self-funding agency of the United Nations, with 191 member states.

It aims to lead the development of a balanced and effective international intellectual property system that enables innovation and creativity for the benefit of all.

Iranian scientific journals among highly cited worldwide

Journal of Nanostructure in Chemistry (JNSC) affiliated to Islamic Azad University was ranked forty-fifth among 103 top nanotechnology journals in Journal Citation Reports 2020 published by Clarivate Analytics.

Some 12 specialized journals in the field of nanotechnology are published in English in the country.

The JCR 2019 ranking report includes 42 journals from Iran, including the Journal of Nanostructure in Chemistry with an impact factor of 4.077.

Iranian scientific journals such as the Journal of Nanostructures (affiliated to Kashan University), Nanomedicine Journal (Mashhad University of Medical Sciences), Journal of Nanoanalysis (Tehran University of Medical Sciences) were listed in the ESCI index of WOS database.

Moreover, the Journal of Water and Environmental Nanotechnology, Nanomedicine Research Journal, and International Nanoscience and Nanotechnology were also listed in the Scopus Index.

FB/MG

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