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New developments and opportunities are opening up in artificial intelligence, says Paul Budde.

I RECENTLY followed a "lunch box lecture", organised by the University of Sydney.In thetalk, Professor Zdenka Kuncic explored the very topical issue of artificial intelligence.

The world is infatuated with artificial intelligence (AI), and understandably so, given its super-human ability to find patterns in big data as we all notice when using Google, Facebook, Amazon, eBay and so on. But the so-called general intelligence that humans possess remains elusive forAI.

Interestingly, Professor Kuncic approached this topic from a physics perspective. By viewing the brains neural network as a physical hardware system, rather than the algorithm-based software as for example AI-based research used insocial media.

Her approach reveals clues that suggest the underlying nature of intelligence is physical.

Basically, what this means is that a software-based system will require ongoing input from software specialists to make updates based on new developments.Her approach, however, is to look at a physical system based on nanotechnology and use these networks as self-learning systems, where human intervention is no longer required.

Imagine the implications of the communications technologies that are on the horizon, where basically billions of sensors and devices will be connected to networks.

The data from these devices need to be processed in real-time and dynamic decisions will have to be made without human intervention. The driverless car is, of course, a classic example of such an application.

The technology needed to make such a system work will have to be based on edge technology in the device out there in the field. It is not going to work in any scaled-up situation if the data from these devices will first have to be sent to the cloud for processing.

Nano networks are a possible solution for such situations. A nanonetwork or nanoscale network is a set of interconnected nanomachines (devices a few hundred nanometers or a few micrometres at most in size), which at the moment can perform only very simple tasks such as computing, data storing, sensing and actuation.

However, Professor Kuncik expects that new developments will see expanded capabilities of single nanomachines both in terms of complexity and range of operation by allowing them to coordinate, share and fuse information.

Professor Kuncik concentrates, in her work, on electromagnetics for communication in the nanoscale.

This is commonly defined as the 'transmission and reception of electromagnetic radiation from components based on novel nanomaterials'.

Professor Kuncik mentioned this technology was still in its infancy. She was very upbeat about the future, based on the results of recent research and international collaboration. Advancements in carbon and molecular electronics have opened the door to a new generation of electronic nanoscale components such as nanobatteries, nanoscale energy harvesting systems, nano-memories, logical circuitry in the nanoscale and even nano-antennas.

From a communication perspective, the unique properties observed in nanomaterials will decide on the specific bandwidths for the emission of electromagnetic radiation, the time lag of the emission, or the magnitude of the emitted power forinput energy.

The researchers are looking at the output of these nanonetworks rather than the input. The process is analogue rather than digital. In other words, the potential output provides a range of possible choices, rather than one (digital) outcome.

The trick is to understand what choices are made in a nanonetwork and why.

There are two main alternatives for electromagnetic communication in the nanoscale the one as pursued by Professor Kuncik the other one being based on molecular communication.

Nanotechnology could have an enormous impact on for example the future of 5G. If nanotechnology can be included in the various Internet of Things (IoT) sensors and devices than this will open an enormous amount of new applications.

It has been experimentally demonstrated that is possible to receive and demodulate an electromagnetic wave by means of a nano radio.

Second, graphene-based nano-antennas have been analysed as potential electromagnetic radiators in the terahertz band.

Once these technologies are further developed and commercialised, we can see a revolution in edge-computing.

Paul Buddeis an Independent Australia columnist and managing director ofPaul Budde Consulting, an independent telecommunications research and consultancy organisation. You can follow Paul on Twitter@PaulBudde.

Support independent journalism Subscribeto IA.

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Artificial intelligence is on the rise - Independent Australia

By John Pickrell

(Image: Svidinenko / Phanie / Rex Features)

Imagine a world where microscopic medical implants patrol our arteries, diagnosing ailments and fighting disease; where military battle-suits deflect explosions; where computer chips are no bigger than specks of dust; and where clouds of miniature space probes transmit data from the atmospheres of Mars or Titan.

Many incredible claims have been made about the futures nanotechnological applications, but what exactly does nano mean, and why has controversy plagued this emerging technology?

Nanotechnology is science and engineering at the scale of atoms and molecules. It is the manipulation and use of materials and devices so tiny that nothing can be built any smaller.

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Nanomaterials are typically between 0.1 and 100 nanometres (nm) in size with 1 nm being equivalent to one billionth of a metre (10-9 m).

This is the scale at which the basic functions of the biological world operate and materials of this size display unusual physical and chemical properties. These profoundly different properties are due to an increase in surface area compared to volume as particles get smaller and also the grip of weird quantum effects at the atomic scale.

If 1 nanometre was roughly the width of a pinhead, then 1 metre on this scale would stretch the entire distance from Washington, DC to Atlanta around 1000 kilometres. But a pinhead is actually one million nanometres wide. Most atoms are 0.1 to 0.2 nm wide, strands of DNA around 2 nm wide, red blood cells are around 7000 nm in diameter, while human hairs are typically 80,000 nm across.

Unwittingly, people have made use of some unusual properties of materials at the nanoscale for centuries. Tiny particles of gold for example, can appear red or green a property that has been used to colour stained glass windows for over 1000 years.

Nanotechnology is found elsewhere today in products ranging from nanometre-thick films on self-cleaning windows to pigments in sunscreens and lipsticks.

The idea of nanotechnology was born in 1959 when physicist Richard Feynman gave a lecture exploring the idea of building things at the atomic and molecular scale. He imagined the entire Encyclopaedia Britannica written on the head of a pin.

However, experimental nanotechnology did not come into its own until 1981, when IBM scientists in Zurich, Switzerland, built the first scanning tunnelling microscope (STM). This allows us to see single atoms by scanning a tiny probe over the surface of a silicon crystal. In 1990, IBM scientists discovered how to use an STM to move single xenon atoms around on a nickel surface in an iconic experiment, with an inspired eye for marketing, they moved 35 atoms to spell out IBM.

Further techniques have since been developed to capture images at the atomic scale, these include the atomic force microscope (AFM), magnetic resonance imaging (MRI) and the even a kind of modified light microscope.

Other significant advances were made in 1985, when chemists discovered how to create a soccer-ball-shaped molecule of 60 carbon atoms, which they called buckminsterfullerene (also known as C60 or buckyballs). And in 1991, tiny, super-strong rolls of carbon atoms known as carbon nanotubes were created. These are six times lighter, yet 100 times stronger than steel.

Both materials have important applications as nanoscale building blocks. Nanotubes have been made into fibres, long threads and fabrics, and used to create tough plastics, computer chips, toxic gas detectors, and numerous other novel materials. The far future might even see the unique properties of nanotubes harnessed to build a space elevator.

More recently, scientists working on the nanoscale have created a multitude of other nanoscale components and devices, including:

Tiny transistors, superconducting quantum dots, nanodiodes, nanosensors, molecular pistons, supercapacitors, biomolecular motors, chemical motors, a nano train set, nanoscale elevators, a DNA nanowalking robot, nanothermometers, nano containers, the beginnings of a miniature chemistry set, nano-Velcro, nanotweezers, nano weighing scales, a nano abacus, a nano guitar, a nanoscale fountain pen, and even a nanosized soldering iron.

Engineering at the nanoscale is no simple feat, and scientists are having to come up with completely different solutions to build from the bottom-up rather than using traditional top-down manufacturing techniques.

Some nanomaterials, such as nanowires and other simple devices have been shown to assemble themselves given the right conditions, and other experiments at larger scales are striving to demonstrate the principles of self-assembly. Microelectronic devices might be persuaded to grow from the ground-up, rather like trees.

Researchers are also finding ways to put proteins, DNA, viruses and bacteria and other micro-organisms to work in building nanomaterials, and also taking other inspiration from the natural world.

Some problems have arisen due to a lack of consistency in measuring distances at the nanoscale, but an atomic lattice nanoruler could improve accuracy.

In the short term, the greatest advances through nanotechnology will come in the form of novel medical devices and processes, new catalysts for industry and smaller components for computers.

In medicine, we are already seeing research on: New ways to deliver drugs with contact lenses; the directing of drugs to tumours with tiny smart bombs; gold nano-bullets that seek-and-destroy tumours; starving cancer with nanoparticles; diagnosing diseases such as Alzheimers, monitoring health and fighting sickness with tiny probes; and growing new organs from scratch.

And biochemists are hoping to deploy viruses as nanocameras to get a clearer picture of what is going on inside cells.

In computing nanoscience may lead to smaller or more powerful microchips with increased capacity and dramatic reductions in the size of hard discs. Some experiments have even shown that it might be possible to manufacture tiny parts for computers inside bacteria. Quantum computing and quantum cryptography also rely on advances in nanotechnology. In fact, existing computer chips are already manufactured taking advantage of techniques at the nanoscale.

In environmental science nanotechnology is providing ways to detect and filter bacteria and toxins out of water supplies and clear up heavy metal and organic chemical pollution.

Nanoscience has already benefited the environment with the development of the catalytic converter which detoxifies engine fumes the world over. Further innovations are leading to smaller, more efficient batteries, advanced solar power and fuel cells and catalytic diesel additives that improve fuel efficiency.

In addition, new and powerful light-emitting diodes (LEDs) may soon replace conventional light bulbs, offering huge energy savings. LEDs are built with semiconductors, increasingly developed at the nanoscale.

In military technology governments are splashing cash on developing new, lightweight equipment and weapons, bullet-proof battle-suits that can morph to provide camouflage or even stiffen to provide splints for broken limbs, and nanosensors that might detect chemical or biological perils.

Nanoparticles are currently in use in 120 millimetre tank rounds and may soon be used in other types of munitions their larger surface area to volume ratio makes them especially reactive.

Despite the fact that it still has relatively few commercial applications, nanotechnology has generated criticism from environmental groups and others such as the UKs Prince Charles who fear as-yet-unknown risks to human health and the environment.

Critics have called for a moratorium on research, arguing that we know little about the toxicological effects of nanoparticles, and that there are no regulations to control them nanotechnology advocates simply call this scaremongering, and fail to understand what all the fuss is about.

Futurist K Eric Drexler credited with coining the term nanotechnology dreamed up one possible nightmare scenario in his1986 book Engines of Creation. Though he now deems it an unlikely scenario, Drexler stirred fears about nanotechnology by painting a future where tiny, self-replicating nanobots run amok, digesting life on earth and reducing everything to a grey goo.

The few experimental studies to date into the health impact of nanoparticles reveal that high concentrations of nanotubes could damage the lungs of rats and mice. One 2004 study hinted that buckyballs can accumulate and cause brain damage in fish.

A report, independently commissioned in 2003 by the environmental group Greenpeace, acknowledged that while there could be risks from nanotechnology the field could generate significant innovations to benefit the environment. A 2004 report, commissioned by the UK government, argued that most nanotechnology presents few novel risks, but recommended more research, along with new regulations to control the technology.

An open public debate on the development and future of nanotechnology may be the best way to stop it becoming embroiled in the same kind of furore that has surrounded GM organisms.

More on these topics:

More:
Introduction: Nanotechnology | New Scientist

Developed by the nanotechnology startup Log9 Materials, the UV disinfectant product is said to have antimicrobial capabilities and can sanitise materials in ten minutes. The company claims to have sold over 1,500 units. In fact, one of its CoronaOvens has also been ordered for French President Emmanuel Macrons official residence.

We have multiple variants in two categories, portable and plug-in. The plug-in version can be plugged into a normal socket and is priced between 9,999 to 12,999 for 20 litres. While the portable one, which is battery operated, will cost around 17,999 for 20 litres. This can be used in an ambulance, a police van or a grocery delivery van, the company said.Advertisement

Log 9s team reached out to CSIO, which was designated to certify novel UV based equipment. A lab assessment of CoronaOven product range was carried out at CSIR-CSIOs centre in Taramani, Chennai. The assessment was conducted under standard temperature and humidity conditions in the lab, and the observations noted that the UV-C dose generated by CoronaOven is congruent with the FDA and NIH-conducted scientific study which said that a certain controlled amount of UVC light can permanently damage the RNA sequence of SARS-CoV1 virus and destroy its ability to multiply in living cells, the startup explained.

The development makes CoronaOven the only UV disinfectant in India so far, which has been certified by the Indian Council of Medical Research (ICMR) approved institution. The startup has also partnered with ICMR approved Dangs Path Lab in Delhi to test the efficiency of the product on microorganisms and bacteria.

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The nanotechnology startup is now working with the government think tank NITI Aayog to ramp up the production and reach. It listed the product on Government of Indias e-marketplace portal (GEM).

We are working closely with NITI Aayog, government agencies, and other key stakeholders to contribute in the best possible manner to aid Indias fight against Covid-19. I believe that this will help safeguard the Indian public against non-scientific knock-offs of our product which tend to create a false positive for the consumer, Singhal added.Advertisement

Swiggy starts alcohol delivery in Kolkata buyer's age will be verified

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India certifies CoronaOven as safe now and it could cost anywhere between 9,999 and 18,999 - Business Insider India

Global Nanotechnology in Medical Market 2020-2027

GlobalNanotechnology in Medical Market Global Drivers, Restraints, Opportunities, Trends, and Forecasts up to 2027. Market Over viewing the present digitized world, 80% of the data generated is unstructured. Organizations are usingNanotechnology in Medical technology to unravel the meaning of such data to leverage business strategies and opportunities. A myriad of unstructured data is available online in the form of audio content, visual content and social footprints.

The segmental analysis focuses on revenue and forecast by Type and by Application in terms of revenue and forecast for the period 2020-2027.The Report scope furnishes with vital statistics about the current market status and manufacturers. It analyzes the in-depth business by considering different aspects, direction for companies, and strategy in the industry.

Our new sample is updated which correspond in new report showing impact of COVID-19 on Industry

The Key Players Profiled In the Market Include

Company Coverage (Company Profile, Sales Revenue, Price, Gross Margin, Main Products etc.)

The Key Players Amgen, Merck, Novartis, Roche, Pfizer, and Smith and Nephew

For Better Understanding, Download Sample PDF Copy of Nanotechnology in Medical Market Research Report @

After analyzing the report and all the aspects of the new investment projects, it is assessed the overall research and closure offered. The analysis of each segment in-detailed with various point views; that include the availability of data, facts, and figures, past performance, trends, and way of approaching in the market.The progressive growth in Nanotechnology in Medical Market report also covers the in-depth analysis of the market dynamics, price, and forecast parameters which also include the demand, profit margin, supply and cost for the industry.

Key question and answered in the report include:

What will the market size and the growth rate be in 2027?

What are the key factors driving the GlobalNanotechnology in Medical Market?

What are the key market trends impacting the growth of the GlobalNanotechnology in Medical Market?

What are the challenges to market growth?

Who are the key North vendors in the GlobalNanotechnology in Medical Market?

What are the market opportunities and threats faced by the vendors in the GlobalNanotechnology in Medical Market?

This report provides pinpoint analysis for changing competitive dynamics. It offers a forward-looking perspective on different factors driving or limiting market growth. It provides a five-year forecast assessed on the basis of how they progressive growth inNanotechnology in Medical Market is predicted to grow. It helps in understanding the key product segments and their future and helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments.

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Find complete analysis on the market status

Identify theNanotechnology in Medical market Counteropportunities and growth segments

Analyze competitive dynamics by evaluating business segments & product portfolios

Facilitate strategy planning and industry dynamics to enhance decision making

The report offers in-depth assessment of the growth and other aspects of theNanotechnology in Medical market in important countries (regions), including:

North America

Europe

Asia PacificCounter

Middle East & Africa

Latin America

America Country (United States, Canada)

South America

Asia Country (China, Japan, India, Korea)

Europe Country (Germany, UK, France, Italy)

Other Country (Middle East, Africa, GCC)

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TABLE OF CONTENT

1 Report Overview

2 Global Growth Trends

3 Market Share by Key Players

4 Breakdown Data by Type and Application

5 United States

6 Europe

7 China

8 Japan

9 Southeast Asia

10 India

11 Central & South America

12 International Players Profiles

13 Market Forecast 2020-2027

14 Analysts Viewpoints/Conclusions

15 Appendix

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(IMPACT OF COVID-19) Nanotechnology in Medical Market Analysis 2020-2027 | Top Growing players Amgen, Merck, Novartis, Roche, Pfizer, and Smith and...

As my school ended in-person classes and my dinner table conversation became consumed with pandemic fears, I tried to channel my energy into doing something productive. As a person who has always been fascinated by nanotechnology -- the manipulation of matter at an extremely small scale -- I believed it could be used to potentially protect Americans from spreading the virus further.

After watching frontline workers make calls for more effective masks and hearing the struggles of health care professionals directly, I realized the great need for a lightweight mask that covers all orifices of the face. So, I began considering concepts I learned in my school's nanotechnology club and chemistry class, as well as reviewing several research articles from scientific journals. Several weeks later, I developed the idea for a nitrogen-doped graphene mask.

Though it has never been done before, the concept of a nitrogen-doped graphene mask isn't all that radical. On its own, graphene, which is a single-layered allotrope of carbon, is impermeable -- such that even a helium atom cannot pass through. However, when graphene is doped with nitrogen, some carbon bonds are broken in the graphene, thus opening up nanoscopic pores. These pores selectively allow oxygen to come in, theoretically making graphene masks breathable, yet acting as a barrier to Covid-19 particles, which are bigger than oxygen atoms.

While the possibility of manufacturing my mask -- assuming it proved to be medically sound -- at a scale necessary to combat the virus might be challenging, my hope is that my idea inspires others to think creatively about ways to tackle Covid-19. In particular, I hope it inspires my fellow Gen Z peers to recognize that we don't always need to turn to adults for the answers -- we may have a few of our own, too. And one of those ideas could save a life.

Parnika Saxena is a high school junior at the Thomas Jefferson High School for Science and Technology in Virginia.

College senior Alexis Day: When in doubt, turn to TikTok

Like millions of students across the country, my spring semester was interrupted by the pandemic. After quickly saying my goodbyes to my fellow classmates and professors at the University of San Diego, I found myself on a drive through the desert to Las Vegas, my hometown.

As my university worked to set up a virtual classroom system, I suddenly had some extra time on my hands. In an effort to not spend all of it scrolling through Instagram and bemoaning the many missed senior moments -- from graduation to department recognitions to senior week parties -- I tried to find a medium that could both speak to my disappointment and offer a brief reprieve from the chaos of the pandemic.

Enter TikTok, a platform that shares staged video clips of people or events in a minute or less.

And, after two months at home, I have made a few TikToks myself -- though I have only shared them with my closest friends and family. They've ranged from light-hearted skits or collaborations with friends to really poor attempts at learning viral dances.

TikTok groups high school and college seniors under "Class of 2020," so when I search for recent content, I see quite a range of stories -- and watching high school students several years my junior expressing their roller-coaster of emotions, but with their signature teenage sarcasm, makes me feel a bit more youthful and energized. In other words, even if I am physically isolated, I'm not alone in my experience -- and these days that virtual connection is priceless.

Alexis Day is a recent graduate of the University of San Diego, majoring in political science and communication studies.

Link:
What to do when the adults don't have the answers - CNN

New Delhi: Indian Institute of Technology (IIT) Delhi and Odisha University of Agriculture and Technology (OUAT), Bhubaneswar have signed a Memorandum of Understanding (MoU) to generate frontier technologies and produce quality human resources in the field of agricultural research and education for addressing the challenges faced by the rural communities and improving their quality of life.

OUAT, Bhubaneswar and IIT Delhi would work jointly in the field of Sensor Application in Agriculture, Precision Farming, Geospatial Technology, Nanotechnology, Biotechnology, and related aspects of agriculture, leading to the creation of rural livelihood opportunities.There will be a strengthening of faculty/ scientists through exchange programmes and the use of laboratories of both the organisations.

The MoU was signed by Prof. V. Ramgopal Rao, Director, IIT Delhi and Dr. Pawan Kumar Agrawal, Vice-Chancellor, OUAT Bhubaneswar.

After signing the MoU, Dr. P.K. Agrawal, Vice-Chancellor, OUAT expressed that this collaboration will create new avenues for interdisciplinary research with the involvement of scientists from OUAT and IIT Delhi.

Speaking of the MoU, Prof. Rao, Director, IIT Delhi said, As part of IIT Delhis resolve to strengthen the rural economy through technology interventions, the institute is closely working with multiple ICAR laboratories on a variety of agricultural problems. Through this collaborative agreement with OUAT, we hope to also initiate multiple funded projects between IIT Delhi and OUAT faculty under IIT Delhis Faculty Interdisciplinary Research Programme (FIRP).

The academic and research collaborations between OUAT and IIT Delhi especially in the areas of sensor based agricultural technologies, nanotechnology and biotechnology applications will develop strategies and modern techniques for meeting current challenges faced by agricultural sectors, said Prof. Sunil Kr. Khare, Dean, R&D, IIT Delhi.

There will also be a joint venture to operate research projects having a common interest in both the institutions.

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IIT Delhi, OUAT Bhubaneswar Sign MoU for Strengthening Research & Education in Cutting Edge Areas of Agriculture and Allied Subjects - India...

The recent research report on the globalNanotechnology and Nanomaterialsmarket presents the latest industry data and future trends, allowing you to recognize the products and end users driving Revenue growth and profitability of the market.The report offers an extensive analysis of key drivers, leading market players, key segments, and regions. Besides this, the experts have deeply studied different geographical areas and presented a competitive scenario to assist new entrants, leading market players, and investors determine emerging economies. These insights offered in the report would benefit market players to formulate strategies for the future and gain a strong position in the global market.

Our analysis involves the study of the market taking into consideration the impact of the COVID-19 pandemic. Please get in touch with us to get your hands on an exhaustive coverage of the impact of the current situation on the market. Our expert team of analysts will provide as per report customized to your requirement. For more connect with us at [emailprotected] or call toll free: +1-800-910-6452

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The report begins with a brief introduction and market overview of the Nanotechnology and Nanomaterials industry followed by its market scope and size. Next, the report provides an overview of market segmentation such as type, application, and region. The drivers, limitations, and opportunities for the market are also listed, along with current trends and policies in the industry.The report provides a detailed study of the growth rate of every segment with the help of charts and tables. Furthermore, various regions related to the growth of the market are analyzed in the report. These regions include North America, Europe, Asia-Pacific, Latin America, Middle East & Africa. Besides this, the research demonstrates the growth trends and upcoming opportunities in every region.Analysts have revealed that the Nanotechnology and Nanomaterials market has shown several significant developments over the past few years. The report offers sound predictions on market value and volume that can be beneficial for the market players, investors, stakeholders, and new entrants to gain detailed insights and obtain a leading position in the market.Additionally, the report offers an in-depth analysis of key market players functioning in the global Nanotechnology and Nanomaterials industry.

Major market players are:Sun Nanotech Company LimitedHosokawa Micron GroupNanoViricidesAltair Nanotechnologies IncorporatedZyvexHyperion Catalysis International IncorporatedEvident TechnologiesNanodynamicsNanomatNanoOptoAbbott LaboratoriesEastman Kodak CompanyQuantum Dot CorpAlmatis GmbHAMCOL International CorporationNanophase Technologies CorporationFrontier Carbon CorporationCompetitive Technologies IncorporatedSuperior Micro ProductsClariant International LimitedDendritic NanoTechnologies, Inc.Nanosys Inc.Teva Pharmaceutical Industries LimitedAccess Pharmaceuticals IncorporatedBioDelivery Sciences International Incorporated

The research presents the performance of each player active in the global Nanotechnology and Nanomaterials market. It also offers a summary and highlights the current advancements of each player in the market. This piece of data is a great source of study material for the investors and stakeholders interested in the market. In addition, the report offers insights on suppliers, buyers, and merchants in the market. Along with this, a comprehensive analysis of consumption, market share, and growth rate of each application is offered for the historic period.

The end users/applications listed in the report are:AerospaceAutomotiveElectronics and SemiconductorsMedical and Life SciencesSensorsMilitary and Defense,

The key product type of Nanotechnology and Nanomaterials market are:Carbon nanotubesNanoclaysNanofibersNanosilverQuantum DotsSilicon Oxide NanopowderTitanium DioxideZinc OxideNanoporous Materials

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The report clearly shows that the Nanotechnology and Nanomaterials industry has achieved remarkable progress since 2027 with numerous significant developments boosting the growth of the market. This report is prepared based on a detailed assessment of the industry by experts. To conclude, stakeholders, investors, product managers, marketing executives, and other experts in search of factual data on supply, demand, and future predictions would find the report valuable.

The report constitutes:Chapter 1 provides an overview of Nanotechnology and Nanomaterials market, containing global revenue, global production, sales, and CAGR. The forecast and analysis of Nanotechnology and Nanomaterials market by type, application, and region are also presented in this chapter.Chapter 2 is about the market landscape and major players. It provides competitive situation and market concentration status along with the basic information of these players.Chapter 3 provides a full-scale analysis of major players in Nanotechnology and Nanomaterials industry. The basic information, as well as the profiles, applications and specifications of products market performance along with Business Overview are offered.Chapter 4 gives a worldwide view of Nanotechnology and Nanomaterials market. It includes production, market share revenue, price, and the growth rate by type.Chapter 5 focuses on the application of Nanotechnology and Nanomaterials, by analyzing the consumption and its growth rate of each application.Chapter 6 is about production, consumption, export, and import of Nanotechnology and Nanomaterials in each region.Chapter 7 pays attention to the production, revenue, price and gross margin of Nanotechnology and Nanomaterials in markets of different regions. The analysis on production, revenue, price and gross margin of the global market is covered in this part.Chapter 8 concentrates on manufacturing analysis, including key raw material analysis, cost structure analysis and process analysis, making up a comprehensive analysis of manufacturing cost.Chapter 9 introduces the industrial chain of Nanotechnology and Nanomaterials. Industrial chain analysis, raw material sources and downstream buyers are analyzed in this chapter.Chapter 10 provides clear insights into market dynamics.Chapter 11 prospects the whole Nanotechnology and Nanomaterials market, including the global production and revenue forecast, regional forecast. It also foresees the Nanotechnology and Nanomaterials market by type and application.Chapter 12 concludes the research findings and refines all the highlights of the study.Chapter 13 introduces the research methodology and sources of research data for your understanding.

About Us:Big Market Research has a range of research reports from various publishers across the world. Our database of reports of various market categories and sub-categories would help to find the exact report you may be looking for.We are instrumental in providing quantitative and qualitative insights on your area of interest by bringing reports from various publishers at one place to save your time and money. A lot of organizations across the world are gaining profits and great benefits from information gained through reports sourced by us.

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Nanotechnology and Nanomaterials Market 2020 Explain What is the current size of the market? And key players analysis: Sun Nanotech Company Limited -...

Global Nanotechnology Marketstudy with 100+ market data Tables, Pie Chat, Graphs & Figures is now released by Data Bridge Market Research. The report presents a complete assessment of the Market covering future trend, current growth factors, attentive opinions, facts, and industry validated market data forecast till 2026. Delivering the key insights pertaining to this industry, the report provides an in-depth analysis of the latest trends, present and future business scenario, market size and share of Major Players such asAltair Nanotechnologies Inc., Nanophase Technologies Corporation, Nanosys, Inc., Unidym, Inc., Ablynx, yvexCorporation, Acusphere, Inc., Chasm Technologies, Inc., PEN, Inc., Bruker Nano GmbH.

Market Analysis:Global Nanotechnology Market

The Global Nanotechnology Market is expected to reach USD 24.56 billion by 2025, from USD 7.24 billion in 2017 growing at a CAGR of 16.5% during the forecast period of 2018 to 2025. The market report contains data for historic years 2016, the base year of calculation is 2017 and the forecast period is 2018 to 2025.

To Remain Ahead Of Your Competitors, Request for a FREE Sample Here (with covid 19 Impact Analysis) @https://www.databridgemarketresearch.com/request-a-sample/?dbmr=global-nanotechnology-market

Global Nanotechnology Market,By Type (Nano composites, Nano materials, Nano tools, Nano devices, Others), By Applications (Healthcare, Environment, Energy, Food & Agriculture, Information & Technology, Others), By Industry (Electronics, Cosmetics, Pharmaceutical, Biotechnology, Others), By Geography (North America, South America, Europe, Asia-Pacific, Middle East and Africa) Industry Trends and Forecast to 2025

Major Drivers and Restraints of the Nanotechnology Industry

Complete report is available (TOC) @https://www.databridgemarketresearch.com/toc/?dbmr=global-nanotechnology-market

The titled segments and sub-section of the market are illuminated below:

Top Players in the Market are:

Some of the major players operating in the global nanotechnology market are Altair Nanotechnologies Inc., Nanophase Technologies Corporation, Nanosys, Inc., Unidym, Inc., Ablynx, ZyvexCorporation, Acusphere, Inc., Chasm Technologies, Inc., PEN, Inc., Bruker Nano GmbH, Advanced Diamond Technologies, Inc., Advanced Electron Beams (AEB), ACS Material, Abraxis, Inc., Bruker, Agilent, Nanosurf AG, Nanoscience Instruments, Hysitron, Inc., Malvern Panalytical among others.

How will the report help new companies to plan their investments in the Nanotechnology market?

The Nanotechnology market research report classifies the competitive spectrum of this industry in elaborate detail. The study claims that the competitive reach spans the companies of.

The report also mentions about the details such as the overall remuneration, product sales figures, pricing trends, gross margins, etc.

Information about the sales & distribution area alongside the details of the company, such as company overview, buyer portfolio, product specifications, etc., are provided in the study.

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Some of the Major Highlights of TOC covers:

Chapter 1: Methodology & Scope

Definition and forecast parameters

Methodology and forecast parameters

Data Sources

Chapter 2: Executive Summary

Business trends

Regional trends

Product trends

End-use trends

Chapter 3: Nanotechnology Industry Insights

Industry segmentation

Industry landscape

Vendor matrix

Technological and innovation landscape

Chapter 4: Nanotechnology Market, By Region

Chapter 5: Company Profile

Business Overview

Financial Data

Product Landscape

Strategic Outlook

SWOT Analysis

Thanks for reading this article, you can also get individual chapter wise section or region wise report version like North America, Europe or Asia.

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Global Nanotechnology Market Is Likely to Experience a Tremendous Growth in Near Future || Altair Nanotechnologies Inc., Nanophase Technologies...

Basel, Switzerland, June 22, 2020 - ARTIDIS AG, a clinical stage health-tech company, announced today that its proprietary nanotechnology platform for cancer diagnosis has met the primary endpoint in the NANO clinical study. NANO was designed to demonstrate the power of using a nanomechanical biomarker to evaluate breast biopsies within a routine clinical setting. Secondary analysis indicates that the nanomechanical biomarker can be used independently of histopathology to differentiate and further categorize specific molecular subtypes of breast cancer.

Data from this study will be presented as a late-breaking abstract at the virtual Annual American Association for Cancer Research (AACR) Meeting that takes place from June 22 24, 2020.

The primary endpoint of the study was to achieve a sensitivity (proportion of true positive results divided by the total number of patients with a malignant tumor) for cancer diagnosis of at least 90% (CI 95%). The analysis for the primary endpoint was performed on data obtained from 520 patients. Biopsy tissue was categorized as normal, benign or malignant based on a Nanomechanical Score as determined by the ARTIDIS nanotechnology platform. After the determination of the Nanomechanical Score, histological analysis of the same specimens was performed to serve as a gold standard for comparison with the Nanomechanical Score".

ARTIDIS was able to detect cancer, including lesions with < 5% neoplastic tissue, with a sensitivity of 96% and a specificity of 78% (CI 95%, AUC = 0.94), meeting the primary study endpoint.

We are very pleased with the excellent results from this first prospective study conducted in Switzerland. It demonstrates the clinical utility of the nanomechanical biomarker in a routine clinical setting at the patient bedside. We are convinced that this brings us one step closer to providing patients undergoing a biopsy procedure with a same day diagnosis, opening the path to personalized cancer treatment plans guided by the ARTIDISNet platform. said Marija Plodinec, PhD, CEO of ARTIDIS AG.

Secondary endpoints evaluated the ability of the nanomechanical biomarker to distinguish and further categorize molecular subtypes of breast cancer based on their aggressiveness and potentially poor treatment response.

While exploratory, secondary analysis indicates that the nanomechanical biomarker can be used independently of histopathology to differentiate and further categorize specific molecular subtypes of breast cancer (sensitivity 83%, specificity 82%, CI 95%, AUC = 0.86). The study includes a long-term follow-up of the same patients after two, five, and ten years.

Secondary analyses indicate that this novel technology will be able to subclassify the breast cancer subtypes into more or less aggressive subgroups, which could define the patients treatment plan and thus reduce over- and undertreatment. commented Dr. Rosemarie Burian, gynecologist at the Breast Center, University Hospital Basel and lead investigator of the study.

About the NANO study

To demonstrate clinical utility of the nanomechanical biomarker as measured by the ARTIDIS nanotechnology platform, a blinded prospective clinical study led by Dr. Rosemarie Burian, was conducted at the Breast Center, University Hospital Basel and at the Biozentrum, University of Basel from 2016 until 2019.

All patients undergoing a core needle or vacuum biopsy of the breast qualified for the study. Within 3 hours, fresh biopsies were analyzed in a physiological solution to maintain their viability for consecutive histological and genetic analysis within the routine clinical workflow. In total, 588 biopsies from N=545 patients were analyzed with a drop-out rate of 4.5%. 61.8% were B1-B4 (normal, benign, of uncertain malignant potential, or suspicious) and 38.2 % were B5a B5d (malignant). The majority of the B5b lesions were Luminal B, followed by Luminal A, Luminal B-like, Her2 and triple negative breast cancers.

The nanomechanical biomarker measurements of the same patients were comprehensively analyzed in relation to more than 180 structured clinical parameters per patient within the digital ARTIDISNet platform to further categorize molecular subtypes of breast cancer based on their aggressiveness and potential for poor treatment response.

I am delighted that the NANO study met its primary endpoint, said Dr. Burian. I would like to thank my radiology colleagues Dr. Sophie Dellas and her team who were essential to the success of the study, Prof. Markus Tolnays wonderful team of pathologists, in particular Prof. Ellen Obermann, Sabine Schdelin from the Clinical Trial Unit of the University Hospital, as well as the Biozentrum team led by Prof. Roderick Lim for their continuous collaboration. And, of course, I thank each of the patients who consented to participate in our study and thus supported us in their very personal way.

About ARTIDIS nanotechnology platform

ARTIDIS introduces a game-changing improvement in the field of cancer diagnostics and treatment by shortening the workflow of bedside biopsy analysis to less than three hours. The ARTIDISNet data platform integrates the mechanical biomarker data with other clinical parameters enabling personalized disease prognosis and aiding with treatment optimization, thereby significantly improving individual patient experience. Its sophisticated AI-powered algorithm allows healthcare professionals to gather insights into rich clinical data sets and supports them in tailoring the treatment of their patients securing better outcomes.

These aspects will be further examined in a multicenter study at centers in Switzerland, Germany, and the US. This will ensure that the current data is evaluated in an international setting and confirm its clinical validity across a wider cohort of patients.

We are also expanding our clinical program to include the diagnosis of lung and pancreatic cancers and to identify its potential for treatment optimization in collaboration with centers in Barcelona, Spain, and the Texas Medical Center in Houston, US, commented Dr. Marija Plodinec.

About breast cancer

Breast cancer is the number one cancer among women worldwide. Each year, 7.5 million women rely on accurate and fast diagnosis and personalized advice when undergoing routine biopsy. Existing diagnostic procedures are complex and can take up to a week or longer resulting in high anxiety and negative patient experience. Out of all biopsies analyzed, approximately 25% will render a cancer diagnosis. These patients will benefit from a reliable biomarker supporting much faster, accurate disease prognosis and treatment optimization.

About ARTIDIS AG

ARTIDIS AG is a clinical stage health-tech company located in Basel, Switzerland, that has developed the first nanomechanical biomarker for cancer diagnosis and treatment optimization. The ARTIDIS nanotechnology platform integrates different types of clinical data into the ARTIDISNet digital platform, allowing physicians to significantly shorten the current diagnostic process bringing benefit to both the patient and the healthcare system. ARTIDIS applications are not limited to oncology, and its nanotechnology platform can be used to analyze any kind of living tissue. For more information please visit http://www.artidis.com

E-Poster Details:Abstract #9677: First clinical validation of the physical biomarker based on the nanomechanical tissue profiling for rapid breast cancer diagnosis, prognosis and prediction of treatment outcomePoster Session Title: Late-Breaking Research: Clinical Research 2Poster Number: LB-273Additional information on the meeting can be found on the AACR website: https://www.aacr.org/meeting/aacr-annual-meeting-2020/aacr-virtual-annual-meeting-ii/

For further information please contact:ARTIDIS AGDr. Marija Plodinec, CEOPhone: +41 61 633 29 95marija.plodinec@artidis.com

Related information:

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ARTIDIS First Prospective Study, "NANO, Evaluating its Nanotechnology Platform Based on a Novel Nanomechanical Biomarker in Breast Cancer Meets...

Lawrence County represented by Bella Shraeder of STEM+M Early College High School

Four Ohio students, including one from Lawrence County, are taking part in The National Youth Science Camp, a free, four-week residential program for young scientists after they graduate high school.

Students from around the country are challenged academically in lectures and hands-on studies and have voluntary opportunities to participate in an outdoor adventure program, gain a new and deep appreciation for the great outdoors and establish friendships that last a lifetime.

This year, amidst the COVID-19 pandemic, National Youth Science Camp has seamlessly converted to a virtual format consisting of lectures, directed studies, cabin meetings and virtual social experiences.

Attending from Lawrence County is Bella Schraeder, a graduate of the Tri-State STEM+M Early College High School in South Point. She will be attending Marshall University with the Yeager Scholarship to pursue biomedical engineering. The program is a full-ride opportunity that includes a trip to study at Oxford, study abroad and more.

At the STEM+M school, she was involved in student government, yearbook and the foundingof the Quiz Bowl team, was the project manager for the virtual reality club, took part in choir and served as both an actor and director in theater.

She was named a National Merit finalist, a National Hispanic Scholar, a Gates Scholarship semifinalist, was inducted into the National Honors Society, won the Tri-State Dare to Dream competition and won the Peoples Choice Award at the WV Makes Fest two years in a row.

She also attended the Yale Young Global Scholars Program and completed two years of nanotechnology research at Marshall University through the Army Educational Outreach Program.

Also attending from Ohio are Akhila Boda, of Lewis Center, a graduate of Metro Early College High School in Columbus, who will pursue Biomedical Science on a Pre-Med track at The Ohio State University; Himani Akula, of Dublin, who plans on attending the seven-year BS/MD program with SUNY University at Albany and Upstate Medical University; and Stephanie Yen, of Beachwood, a graduate of Beachwood High School who will attend Princeton University with an intended major of computer science or electrical engineering.

See more here:
Four Ohioans taking part in national science camp - The Tribune - Ironton Tribune

Med chem

ISSN: 2161-0444 Med chem, an open access journal Volume 5(2): 081-089 (2015) - 85

Citation: Nikalje AP (2015) Nanotechnology and its Applications in Medicine. Med chem 5: 081-089. doi:10.4172/2161-0444.1000247

due to presence of both hydrophilic and hydrophobic environments

[12]. Tissue damage by drug can be prevented with drug delivery, by

regulated drug release. With drug delivery systems larger clearance

of drug from body can be reduced by altering the pharmacokinetics

of the drug. Potential nano drugs will work by very specic and well-

understood mechanisms; one of the major impacts of nanotechnology

and nanoscience will be in leading development of completely new

drugs with more useful behavior and less side eects.

usnano particles are promising tools for the advancement ofdrug

delivery, asdiagnostic sensors andbio imaging. e bio-distribution of

these nanoparticles is still imperfect due to the complex host's reactions

to nano- and micro sized materials and the diculty in targeting

specic organs in the body. Eorts are made to optimize and better

understand the potential and limitations of nano particulate systems.

In the excretory system study of mice dendrimers are encapsulated

for drug deliver of positively-charged gold nano particles, which were

found to enter the kidneys while negatively-charged gold nanoparticles

remained in the important organs like spleen and liver. e positive

surface charge of the nanoparticle decreases the rate of opsonization

of nanoparticles in the liver, thus aecting the excretory pathway. Due

to small size of 5nm, nano particles can get stored in the peripheral

tissues, and therefore can get collected in the body over time. us

nano particles can be used successfully and eciently for targeting and

distribution, further research can be done on nano toxicity so that its

medical uses can be increased and improved [13].

e applications of nano particles in drug delivery

Abraxane, is albumin bound paclitaxel, a nano particle used

for treatment of breast cancer and non-small- cell lung cancer

(NSCLC). Nano particles are used to deliver the drug with enhanced

eectiveness for treatment for head and neck cancer, in mice model

study ,which was carried out at fromRice University and University

of Texas MD Anderson Cancer Center. e reported treatment uses

Cremophor ELwhich allows thehydrophobicpaclitaxel to be delivered

intravenously. When the toxic Cremophor is replaced with carbon

nano particles its side eects diminished and drug targeting was much

improved and needs a lower dose of the toxic paclitaxel [14].

Nano particle chain was used to deliverthe drug doxorubicin to

breast cancer cells in a mice study at Case Western Reserve University.

e scientists prepared a 100 nm long nano particle chain by chemically

linking three magnetic,iron-oxidenano spheres, to one doxorubicin-

loaded liposome. Aer penetration of the nano chains inside the

tumor magnetic nanoparticles were made to vibrate by generating,

radiofrequency eld which resulted in the rupture of the liposome,

thereby dispersing the drug in its free form throughout the tumor.

Tumor growth was halted more eectively by nanotechnology than the

standard treatment with doxorubicin and is less harmful to healthy cells

as very less doses of doxorubicin were used [15,16].

Polyethylene glycol (PEG) nano particles carrying payload

of antibioticsat its core were used to target bacterial infection more

precisely inside the body, as reported by scientists of MIT. e nano

delivery of particles, containing a sub-layer ofpH sensitive chains of

theamino acidhistidine, is used to destroy bacteria that have developed

resistance to antibiotics because of the targeted high dose and prolonged

release of the drug. Nanotechnology can be eciently used to treat

various infectious diseases [17,18].

Researchers in the Harvard UniversityWyss Institute have used

the biomimeticstrategy in a mouse model .Drug coated nano particles

were used to dissolve blood clots by selectively binding to the narrowed

regions in the blood vessels as theplateletsdo [19]. Biodegradable nano

particle aggregates were coated withtissue plasminogen activator, tPA,

were injectedintravenously which bind and degrade the blood clots.

Due to shear stresses in the vessel narrowing region dissociation of the

aggregates occurs and releases the tPA-coated nano particles. e nano

therapeutics can be applied greatly to reduce the bleeding, commonly

found in standardthrombosis treatment.

e researchers in the University of Kentucky have created

X-shapedRNAnano particles, which can carr y four functional modules.

ese chemically and thermodynamically stable RNA molecules are

able of remaining intact in the mouse body for more than 8 hours and to

resist degradation byRNAsin the blood stream. ese X-shaped RNA

can be eectively performing therapeutic and diagnostic functions.

ey regulate gene expression and cellular function, and are capable of

binding to cancer cells with precision, due to its design [20,21].

Minicell nano particle are used in early phase clinical trial for

drug delivery for treatment of patients with advanced and untreatable

cancer. e minicells are built from the membranes of mutant bacteria

and were loaded withpaclitaxeland coated withcetuximab, antibodies

and used for treatment of a variety of cancers. e tumor cells engulf

the minicells. Once inside the tumor, the anti-cancer drug destroys the

tumor cells. e larger size of minicells plays a better prole in side-

eects. e minicell drug delivery system uses lower dose of drug and

has less side-eects can be used to treat a number of dierent cancers

with dierent anti-cancer drugs [22,23].

Nano sponges are important tools [24] in drug delivery, due to

their small size and porous nature they can bind poorly-soluble drugs

within their matrix and improve their bioavailability. ey can be made

to carry drugs to specic sites, thus help to prevent drug and protein

degradation and can prolong drug release in a controlled manner.

Proteins and Peptide Delivery

Protein and peptides are macromolecules and are called

biopharmaceuticals. ese have been identied for treatment of

various diseases and disorders as they exert multiple biological actions

in human body. Nano materials like nano particles and dendrimers

are called as nano biopharmaceuticals , are used for targeted and/or

controlled delivery.

Applications

Nano particles were found useful in delivering the myelin antigens,

See the article here:
(PDF) Nanotechnology and its Applications in Medicine

As the COVID-19 pandemic rages on, the media continues to rattle off statistics at full force.

However, without a frame of reference, numbers such as the death toll can be difficult to interpret. Mortalities attributed to the virus, for example, are often measured in the thousands of people per day globallybut is this number a little or a lot, relative to typical causes of death?

Todays graphic uses data from Our World in Data to provide context with the total number of worldwide daily deaths. It also outlines how many people who die each day from specific causes.

Nearly 150,000 people die per day worldwide, based on the latest comprehensive research published in 2017. Which diseases are the most deadly, and how many lives do they take per day?

Heres how many people die each day on average, sorted by cause:

Cardiovascular diseases, or diseases of the heart and blood vessels, are the leading cause of death. However, their prominence is not reflected in our perceptions of death nor in the media.

While the death toll for HIV/AIDS peaked in 2004, it still affects many people today. The disease causes over 2,600 daily deaths on average.

Interestingly, terrorism and natural disasters cause very few deaths in relation to other causes. That said, these numbers can vary from day to dayand year to yeardepending on the severity of each individual instance.

On a national level, these statistics vary further. Below are the total deaths from all causes for selected countries, based on 2017 data.

China and India both see more than 25,000 total deaths per day, due to their large populations.

However, with 34.7 daily deaths per million people each day, Russia has the highest deaths proportional to population out of any of these countries.

While these numbers help provide some context for the global scale of COVID-19 deaths, they do not offer a direct comparison.

The fact is that many of the aforementioned death rates are based on much larger and consistent sample sizes of data. On the flipside, since WHO declared COVID-19 a pandemic on March 11, 2020, daily confirmed deaths have fallen in a wide range between 272 and 10,520 per dayand there is no telling what could happen in the future.

On top of this variance, data on confirmed COVID-19 deaths has other quirks. For example, testing rates for the virus may vary between jurisdictions, and there have also been disagreements between authorities on how deaths should even be tallied in the first place. This makes getting an accurate picture surprisingly complicated.

While its impossible to know the true death toll of COVID-19, it is clear that in some countries daily deaths have reached rates 50% or higher than the historical average for periods of time:

Time, and further analysis, will be required to determine a more accurate COVID-19 death count.

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Infographic: The Future of Nanotechnology in Medicine

(Jan 2020) WMR has released a report on Nanotechnology In Medical Devices Market 2027. It provides key insights through details and gives customers a competitive advantage. Nanotechnology In Medical Devices Industry Size, Market Share Value, Competitor Surveys, Industry Outlook and Analytics cover a variety of factors such as geographic analysis, Nanotechnology In Medical Devices types, applications, and more.

Worldwide Market Reports Nanotechnology In Medical Devices Industry information includes surveys based on Current Scenarios, Historical Records and Future Forecasts. Organize accurate data from various aspects. It provides a 360 overview of the industrys competitive environment. This helps companies understand threats and challenges in front of their business.

Download PDF Brochure with Full Analysis of Key Players: https://www.worldwidemarketreports.com/sample/318048

NOTE: This report Sample includes: Brief Introduction to the research report, Table of Contents (Scope covered as a part of the study), Top players in the market, Research framework (Structure of the actual report), The research methodology adopted by Worldwide Market Reports

Following Key Players are Analysed in this Report: Stryker Corporation, 3M Company, St. Jude Medical Inc., Affymetrix Inc., PerkinElmer Inc., Starkey Hearing Technologies, Smith & Nephew plc, Dentsply International, Mitsui Chemicals Inc., AAP Implantate AG

(*other Player can be added on demand)

Regional Insights of Nanotechnology In Medical Devices Market

Nanotechnology In Medical Devices Report Covers:

In the end, the Nanotechnology In Medical Devices Market Report provides an insight and expert analysis of the markets key trends and behaviors along with an overview of market data and key brands. Nanotechnology In Medical Devices Market Reports provide all data with easily digestible information to drive future innovation and advance your business for every entrepreneur as well as for established Enterprises.

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Worldwide Market Reports provides customized upon request. This report can be personalized to suit your needs. Please contact the research team to ensure you receive the report that fits your needs.

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Worldwide Market Reports is your one-stop repository of detailed and in-depth market research reports compiled by an extensive list of publishers from across the globe. We offer reports across virtually all domains and an exhaustive list of sub-domains under the sun. The in-depth market analysis by some of the most vastly experienced analysts provide our diverse range of clients from across all industries with vital decision making insights to plan and align their market strategies in line with current market trends.

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Nanotechnology In Medical Devices Market: How Much Changes Will Need to Defeat COVID 19 Effect on Key Players: Stryker Corporation, 3M Company, St....

A new market report by Verified Market Research on the Nanotechnology Market has been released with reliable information and accurate forecasts for a better understanding of the current and future market scenarios. The report offers an in-depth analysis of the global market, including qualitative and quantitative insights, historical data, and estimated projections about the market size and share in the forecast period. The forecasts mentioned in the report have been acquired by using proven research assumptions and methodologies. Hence, this research study serves as an important depository of the information for every market landscape. The report is segmented on the basis of types, end-users, applications, and regional markets.

The research study includes the latest updates about the COVID-19 impact on the Nanotechnology sector. The outbreak has broadly influenced the global economic landscape. The report contains a complete breakdown of the current situation in the ever-evolving business sector and estimates the aftereffects of the outbreak on the overall economy.

Get Sample Copy with TOC of the Report to understand the structure of the complete report @ https://www.verifiedmarketresearch.com/download-sample/?rid=15416&utm_source=COD&utm_medium=007

The report also emphasizes the initiatives undertaken by the companies operating in the market including product innovation, product launches, and technological development to help their organization offer more effective products in the market. It also studies notable business events, including corporate deals, mergers and acquisitions, joint ventures, partnerships, product launches, and brand promotions.

Leading Nanotechnology manufacturers/companies operating at both regional and global levels:

The report also inspects the financial standing of the leading companies, which includes gross profit, revenue generation, sales volume, sales revenue, manufacturing cost, individual growth rate, and other financial ratios.

The report also focuses on the global industry trends, development patterns of industries, governing factors, growth rate, and competitive analysis of the market, growth opportunities, challenges, investment strategies, and forecasts till 2026. The Nanotechnology Market was estimated at USD XX Million/Billion in 2016 and is estimated to reach USD XX Million/Billion by 2026, expanding at a rate of XX% over the forecast period. To calculate the market size, the report provides a thorough analysis of the market by accumulating, studying, and synthesizing primary and secondary data from multiple sources.

To get Incredible Discounts on this Premium Report, Click Here @ https://www.verifiedmarketresearch.com/ask-for-discount/?rid=15416&utm_source=COD&utm_medium=007

The market is predicted to witness significant growth over the forecast period, owing to the growing consumer awareness about the benefits of Nanotechnology. The increase in disposable income across the key geographies has also impacted the market positively. Moreover, factors like urbanization, high population growth, and a growing middle-class population with higher disposable income are also forecasted to drive market growth.

According to the research report, one of the key challenges that might hinder the market growth is the presence of counter fit products. The market is witnessing the entry of a surging number of alternative products that use inferior ingredients.

Key factors influencing market growth:

Reasons for purchasing this Report from Verified Market Research

Customized Research Report Using Corporate Email Id @ https://www.verifiedmarketresearch.com/product/nanotechnology-market/?utm_source=COD&utm_medium=007

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Verified Market Research also provides customization options to tailor the reports as per client requirements. This report can be personalized to cater to your research needs. Feel free to get in touch with our sales team, who will ensure that you get a report as per your needs.

Thank you for reading this article. You can also get chapter-wise sections or region-wise report coverage for North America, Europe, Asia Pacific, Latin America, and Middle East & Africa.

To summarize, the Nanotechnology market report studies the contemporary market to forecast the growth prospects, challenges, opportunities, risks, threats, and the trends observed in the market that can either propel or curtail the growth rate of the industry. The market factors impacting the global sector also include provincial trade policies, international trade disputes, entry barriers, and other regulatory restrictions.

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Our 250 Analysts and SMEs offer a high level of expertise in data collection and governance use industrial techniques to collect and analyse data on more than 15,000 high impact and niche markets. Our analysts are trained to combine modern data collection techniques, superior research methodology, expertise and years of collective experience to produce informative and accurate research.

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Nanotechnology Market 2019 Break Down by Top Companies, Countries, Applications, Challenges, Trends, Opportunities and Forecast 2026 - Cole of Duty

Pune, June 05, 2020 (GLOBE NEWSWIRE) -- The global automotive catalytic converter market is set to gain momentum from the increasing innovations in nanotechnology to surge the effectiveness of the converters. This information is published by Fortune Business Insights in a recent report, titled, Automotive Catalytic Converter Market Size, Share & COVID-19 Impact Analysis, By Product Type (Two Way Oxidation, Three-Way Oxidation-Reduction, Diesel Oxidation Catalyst), By Material Type (Platinum, Palladium, and Rhodium) and By Vehicle Type (Passenger Car, Light Commercial Vehicle, and Heavy Commercial Vehicle) and Regional Forecasts, 2019-2027.

The report further states that the automotive catalytic converter market size was USD 73.8 billion in 2019 and is projected to reach USD 71.6 billion by 2027, exhibiting a CAGR of 15% during the forecast period. The market is expected to decline considerably in 2020 due to the COVID-19 impact and hence the 2019-2027 CAGR is very high.

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COVID-19 Impact on Automotive Catalytic Converter Industry:

The emergence of COVID-19 has brought the world to a standstill. We understand that this health crisis has brought an unprecedented impact on businesses across industries. However, this too shall pass. Rising support from governments and several companies can help in the fight against this highly contagious disease. There are some industries that are struggling and some are thriving. Overall, almost every sector is anticipated to be impacted by the pandemic.We are taking continuous efforts to help your business sustain and grow during COVID-19 pandemics. Based on our experience and expertise, we will offer you an impact analysis of coronavirus outbreak across industries to help you prepare for the future.

To get the Short-Term and Long-Term Impact of COVID-19 on this market.

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This Report Answers the Following Questions:

Market Drivers

What Are the Significant Effects of Covid-19 on the Market?

Segment-

TWORCC Segment to Lead Backed by its Ability to Perform Simultaneous Chemical Conversions

In terms of product type, the market is segregated into diesel oxidation catalyst (DOC), three way oxidation reduction catalytic converter (TWORCC), and two way oxidation catalytic converter (TWOCC). Out of these, the TWORCC segment procured 60.7% automotive catalytic converter market share in 2019 and is set to lead in the near future. It would occur as TWORCC utilizes oxidation and reduction catalysts to perform three chemical conversions simultaneously. It can efficiently conduct the reduction process of nitrogen oxide by releasing oxygen.

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Regional Analysis-

Asia Pacific to Dominate Fueled by Rising Disposable Income of the Populace

In 2019, Asia Pacific held USD 54.0 billion in terms of revenue and is anticipated to remain dominant throughout the forecast period. This growth is attributable to the expansion of the industrial sector, high demographic growth, and rapid urbanization. Apart from these factors, rising disposable income of the masses, as well as improvements in their standard of living would contribute to the market growth in this region. The governments of several developing nations in this region, such as China and India have implemented strict norms and regulations to curb the air pollution and global warming as these are occurring because of the increasing vehicular emissions.

Europe, on the other hand, is expected to remain in the second position because of the presence of a large number of reputed automotive manufacturing companies. In addition to this, the implementation of stringent rules by the regulatory bodies, such as Euro-VI, as well as rising research and development activities by key companies would spur the demand for automotive catalytic converter in this region.

Competitive Landscape-

Key Players Aim to Gain Competitive Edge by Unveiling Unique Products

The market houses multiple companies. Amongst them, BASF Catalysts LLC is considered to be the top supplier of automobile emission catalysts. It possesses exceptional expertise in the development of state-of-the-art technologies to protect the atmosphere. Other companies are striving to increase sales and broaden their geographic presence by introducing new products and by conducting through research.

Fortune Business Insights lists out the names of all the automotive catalytic converter manufacturers present in the market. They are as follows:

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Detailed Table of Content:

TOC Continued!!!

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Below are two of the important industry developments:

March 2018: A team of scientists from DESY NanoLab, a research centre for photon science, recently conducted an extensive study. It revealed that common carbon dioxide (CO2) could be efficiently converted from noxious carbon monoxide (CO) on the surface of noble metal nanoparticles. The particles were those that are used in automotive catalytic converters. The scientists also declared that the efficiency of catalytic reactions increases by having a large number of edges.

November 2017: Faurecia, an automotive supplier headquartered in France, successfully innovated its latest smart automotive catalyst converter that set was presented in the market in 2019. This new converter will support automakers in meeting the next-generation emission standards and can also be adapted to diesels.

Have a Look at Related Research Insights:

Automotive Adaptive Cruise Control Market Size, Share & Industry Analysis, By Component Type (LiDAR, RADAR, Others) By Vehicle Type (Passenger Cars, Commercial Vehicles), and Regional Forecast, 2019-2026

Clutch Disc Market for Automotive Size, Share & Industry Analysis, By Transmission Type (Manual Transmission, Automatic Transmission, Automated Manual Transmission, and Others), By Vehicle Type (Passenger Cars and Commercial Vehicles) and Regional Forecasts, 2019-2026

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Automotive Catalytic Converter Market Size to Reach USD 71.6 Billion by 2027; Innovations in Nanotechnology to Aid Growth, Says Fortune Business...

Global Nanotechnology in Medical Devices Market Professional Survey Report 2019

The Nanotechnology in Medical Devices Market 2020 report includes the market strategy, market orientation, expert opinion and knowledgeable information. The Nanotechnology in Medical Devices Industry Report is an in-depth study analyzing the current state of the Nanotechnology in Medical Devices Market. It provides a brief overview of the market focusing on definitions, classifications, product specifications, manufacturing processes, cost structures, market segmentation, end-use applications and industry chain analysis. The study on Nanotechnology in Medical Devices Market provides analysis of market covering the industry trends, recent developments in the market and competitive landscape.

It takes into account the CAGR, value, volume, revenue, production, consumption, sales, manufacturing cost, prices, and other key factors related to the global Nanotechnology in Medical Devices market. All findings and data on the global Nanotechnology in Medical Devices market provided in the report are calculated, gathered, and verified using advanced and reliable primary and secondary research sources. The regional analysis offered in the report will help you to identify key opportunities of the global Nanotechnology in Medical Devices market available in different regions and countries.

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

Some of the companies competing in the Nanotechnology in Medical Devices Market are:3M,Dentsply International,Mitsui Chemicals,Stryker,AAP Implantate,Affymetrix,Perkinelmer,ST. Jude Medical,Smith & Nephew,Starkey Hearing Technologies

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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 Nanotechnology in Medical Devices 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.

GlobalNanotechnology in Medical DevicesMarket Research Report 2020 carries in-depth case studies on the various countries which are involved in the Nanotechnology in Medical Devices 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 Nanotechnology in Medical Devices market report answer pertaining to the regional reach of the industry

The report claims to split the regional scope of the Nanotechnology in Medical Devices 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

A short overview of the Nanotechnology in Medical Devices market scope:

Global market remuneration

Overall projected growth rate

Industry trends

Competitive scope

Product range

Application landscape

Supplier analysis

Marketing channel trends Now and later

Sales channel evaluation

Market Competition Trend

Market Concentration Rate

Reasons for Buying 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:Nanotechnology in Medical Devices Market Overview

Chapter 2: Global Economic Impact on Industry

Chapter 3:Nanotechnology in Medical Devices 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: Nanotechnology in Medical Devices Market Effect Factors Analysis

Chapter 12: GlobalNanotechnology in Medical Devices Market Forecast to 2027

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Nanotechnology in Medical Devices Market to Witness Huge Growth by 2020-2025 Focusing on Leading Players are 3M,Dentsply International,Mitsui...

KITCHENER, Ontario--(BUSINESS WIRE)--Trusscore, a material science company that is changing the way people build by combining sustainable materials and nanotechnology, today announced it has completed an oversubscribed CDN$5.33-million seed round of financing.

Proceeds from the financing will assist in research and development aimed toward scaling production of Trusscores innovative materials and to continue building and expanding the Trusscore team in support of the growth of the company.

Trusscore is delighted to have a team of investors comprised of fellow serial entrepreneurs, construction executives, family and friends, said Dave Caputo, CEO of Trusscore. Having capital come from investors in the building materials sector is encouraging and humbling. At Trusscore, we are committed to changing the way the world builds, reducing material waste, and leaving the world a better place for the next generation.

Trusscore was able to demonstrate that commitment by helping to flatten the curve at the outset of the current COVID-19 pandemic. Within a week, the company developed a line of antimicrobial temporary walls TempWall by Trusscore that were accepted for use in a number of hospitals and long-term care facilities. Prime Minister Justin Trudeau mentioned the company and its new product during one of his recent COVID-19 media briefings. TempWall by Trusscore will continue to be a priority through the COVID-19 crisis and beyond, helping with physical distancing as the economy slowly reopens.

About Trusscore

Trusscore is changing how people build buildings and the environmental footprint left behind when they do. Trusscore is focusing on R&D and bringing material science to its formulationsmaking its products functional and beautiful. Trusscore Wall&CeilingBoard is changing the way the world builds interior walls with a material that is installed three times faster and is incredibly durable, reusable and recyclable. The companys marketing and R&D teams are based at the Communitech Hub in Kitchener with manufacturing plants in Palmerston, Ontario and Dayton, Ohio.

Recent media coverage

https://nationalpost.com/news/canada/heroes-of-the-pandemic-how-one-mans-obsession-with-painted-drywall-helped-the-covid-19-fight?video_autoplay=true https://www.cbc.ca/news/canada/kitchener-waterloo/temp-walls-trusscore-justin-trudeau-waterloo-region-1.5516432 https://kitchener.ctvnews.ca/trudeau-uses-waterloo-company-as-example-for-retooling-to-equip-hospitals-1.4875927

Continued here:
Trusscore Raises $5.33 Million in Seed Financing Round - Business Wire

Written by AZoMMay 26 2020

The H+ proton contains a single ion of hydrogen, which is the lightest and smallest among all the chemical elements. Such protons occur in water naturally where a small proportion of H2O molecules gets split up instantaneously.

Image Credit: Ecole Polytechnique Federale de Lausanne (EPFL)

The amount of protons in a liquid decides if the solution is basic or acidic. Moreover, the protons are highly mobile, shifting via water by jumping from one water molecule to another.

There has been a good understanding of the way this transport process functions in a body of water. However, the existence of a solid surface can drastically impact the behavior of protons, and at present, the researchers have very few tools to quantify such movements at water-solid interfaces.

In the latest study, Jean Comtet, a postdoctoral researcher at Ecole Polytechnique Federale de Lausanne (EPFL) School of Engineering (STI), has offered the first-ever insight into the behavior of protons when water comes into contact with a solid surface, diving down to the maximum scale of a single proton and single charge.

The study results were published in the Nature Nanotechnology journal and show that protons move along the interface between these two mediums. Scientists from the Department of Chemistry at the cole Normale Suprieure (ENS) in Paris also contributed to the study by performing simulations.

Comtet examined the interface between a boron nitride crystal (a very smooth material) and water.

The surface of the crystal can contain defects. We found that these imperfections act as markers, reemitting light when a proton binds to them.

Jean Comtet, Postdoctoral Researcher, School of Engineering, Ecole Polytechnique Federale de Lausanne

Comtet used a super-resolution microscope to view such fluorescence signals and quantify the location of the defects to within about 10 nma very high degree of accuracy. The more fascinating fact of the study is that it still offered a new understanding of how the crystalline defects are triggered.

We observed defects on the surface of the crystal lighting up one after another when they came into contact with water. We realized that this lighting pattern was produced by a single proton jumping from defect to defect, generating an identifiable pathway.

Jean Comtet, Postdoctoral Researcher, School of Engineering, Ecole Polytechnique Federale de Lausanne

One of the main findings of the study was that the protons move along the water-solid interface. According to Comtet, The protons keep on moving, but hugging the surface of the solid. Thats why we see these kinds of patterns.

Aleksandra Radenovic, professor at EPFLs Laboratory of Nanoscale Biology (LBEN), stated that This is a major experimental breakthrough that furthers our understanding of how charges in water interact with solid surfaces.

Our observations, in this specific context, can easily be extrapolated to other materials and environments. These discoveries could have important implications in many other fields and disciplines, from understanding biological processes at the cell-membrane interface to designing more efficient filters and batteries.

Jean Comtet, Postdoctoral Researcher, School of Engineering, Ecole Polytechnique Federale de Lausanne

Comtet, J., et al. (2020) Direct observation of water-mediated single-proton transport between hBN surface defects. Nature Nanotechnology. doi.org/10.1038/s41565-020-0695-4.

Source: https://www.epfl.ch/en/

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Study Shows Protons Tend to Move Along Interface Between Two Mediums - AZoM

The Global Nanotechnology in Drug Delivery Market report draws precise insights by examining the latest and prospective industry trends and helping readers recognize the products and services that are boosting revenue growth and profitability. The study performs a detailed analysis of all the significant factors, including drivers, constraints, threats, challenges, prospects, and industry-specific trends, impacting the market on a global and regional scale. Additionally, the report cites worldwide market scenario along with competitive landscape of leading participants.

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Leading Players in the Nanotechnology in Drug Delivery Market

Access Pharmaceuticals

Camurus

Alkermes

Aquanova

Celgene

Capsulution Pharma

The Nanotechnology in Drug Delivery Industry is extremely competitive and consolidated because of the existence of several established companies that are adopting different marketing strategies to increase their market share. The vendors engaged in the sector are outlined based on their geographic reach, financial performance, strategic moves, and product portfolio. The vendors are gradually widening their strategic moves, along with customer interaction.

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Type of Nanotechnology in Drug Delivery Market:

Targeted Delivery

Drug Package

Application of Nanotechnology in Drug Delivery Market:

Cancer

Tumor

Other

Key Points from TOC:

1 Nanotechnology in Drug Delivery Market Overview

2 Company Profiles

3 Market Competition, by Players

3.1 Global Nanotechnology in Drug Delivery Revenue and Share by Players

3.2 Market Concentration Rate

3.2.1 Top 5 Nanotechnology in Drug Delivery Players Market Share

3.2.2 Top 10 Nanotechnology in Drug Delivery Players Market Share

3.3 Market Competition Trend

4 Market Size by Regions

10 Market Size Segment by Type

10.1 Global Nanotechnology in Drug Delivery Revenue and Market Share by Type

10.2 Global Nanotechnology in Drug Delivery Market Forecast by Type

10.3 On-Premise Revenue Growth Rate

10.4 Cloud-Based Revenue Growth Rate

11 Global Nanotechnology in Drug Delivery Market Segment by Application

11.1 Global Nanotechnology in Drug Delivery Revenue Market Share by Application

11.2 Nanotechnology in Drug Delivery Market Forecast by Application

11.3 Small and Medium Enterprises Revenue Growth

11.4 Large Enterprises Revenue Growth

13 Research Findings and Conclusion

14 Appendix

14.1 Methodology

14.2 Data Source

14.3 Disclaimer

14.4 About US

To Continue..

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Nanotechnology in Drug Delivery Market estimated to grow high during forecast by Top Players like Access Pharmaceuticals, Camurus, Alkermes, Aquanova...