Select Page ::

John McAfee Speaks On the Beatzcoin IEO Hosting On Probit Exchange – Coinpedia

Posted on September 25, 2019 by Danzig

Recently, VibraVid announced their Beatzcoin IEO is now hosted on the Probit Exchange which will commence on September 30. Owing to which the founder of the McAfee Associates, John McAfee, has urged the audience to strongly look at the Beatzcoin IEO on Probit Exchange.

John McAfee feels that the Blockchain has the power to provide the artists and musicians the ownership of their own creation. He also adds to it saying that

The upcoming @BeatzCoin IEO on Probit.com from September 30 will power the VibraVid platform to liberate countless artists & reward them for their work.

Basically, Probit is a global cryptocurrency exchange located in South Korea, which allows easy and fast on-boarding process for international and US-based users. This exchange has a quick and easy KYC process. Also, has the order speed of over 1.5 million orders per second and advanced security. This supports hardware security keys and 2FA. Also, the exchange has the simplest UI and it lists promising, qualified and deserving cryptocurrency projects.

The Beatzcoin (BTZC) is a TRC-10 cryptocurrency which is useful to transact on VibraVid platform. Also, VibraVid is a decentralized media sharing platform constructed on the TRON blockchain. Basically, this will be a decentralized answer to YouTube and SoundCloud. Recently, Beatzcoin has partnered with Changelly. They aim to allow easy on/off ramp for users holding major cryptocurrencies.

What is you opinion on this launch? Share your thoughts in our comments section.

View original post here:

John McAfee Speaks On the Beatzcoin IEO Hosting On Probit Exchange - Coinpedia

Charles Hoskinson Interview From Ethereum To Cardano And IOHK – Nasdaq

Posted on September 25, 2019 by Danzig

In our latest interview, we spoke with Charles Hoskinson: a man who has made a significant living investing in crypto, developing his own companies, and, as a hobby, ranching and creating his own anthill art. Charles, who originally graduated from Metro State University in Denver and then studied at the University of Colorado, has helped create three different crypto start-ups andas we will discuss in the interviewhas certainly learned a lot along the way.

While Charles most recognizable startup is todays second-largest coin, Ethereum, it seems his proudest work is what he has done with IOHK and Cardano. We caught up with Charles to learn more about his accomplishments and his views on the future of crypto.

As someone who is incredibly familiar with the crypto industry as a whole, Charles has become a staunch advocate for crypto as the currency of the future. He wisely recognizes that young people, especially in the developing world, statistically prefer storing their wealth in cryptocurrency rather than their national currency or even their national stock market.

Charles Hoskinson discusses in detail how new coins can provide holders with value and increase their value over time. He is a major advocate for decentralization and universal accessibility, two components he believes helps make these coins so appealing to new investors.

Bakkt to Launch Bitcoin Futures in Three Days, John McAfee: It ould Jump-Start Crypto Adoption – U.Today

Posted on September 25, 2019 by Danzig

Atomic wallet successfully launched the loyalty program for its users, and it is based on Binance Chain. A multi-level membership program provides cashback for AWC owners, which can reach $300 a month.

Regarding the innovations, Atomic Wallet CEO, Konstantin Gladych, said the following:

As Atomic Wallet is rapidly growing and getting popularity within the crypto community, our membership program will help to all crypto enthusiasts not only enjoy using Atomic but also to get benefits of AWC token.

To start receiving cashback from Atomic, the users account must have none the less 1000 AWC tokens; payments are made for using the built-in exchange service. The algorithm is quite simple; the more users hold tokens, the more they will receive at the end of the month.

Screenshot of Atomic Wallet application

Atomic has divided its loyalty program into four main levels: Bronze, Silver, Gold and Platinum. Depending on how much AWC you hold, the cashback may rise from 0.25% to 1%, and the limit too. On the Bronze level, it will be $100, but moving forward to Platinum it gonna rise to $300 cashback limit per month, which is pretty nice.

For those who do not know, Atomic is a universal cryptocurrency wallet that supports more than 500 coins and tokens without deposits and is suitable for most OS.

Continued here:

Bakkt to Launch Bitcoin Futures in Three Days, John McAfee: It ould Jump-Start Crypto Adoption - U.Today

Overstock Shares Crash as Former CEO Cashes Out Goes All In on Crypto and Gold – CCN.com

Posted on September 25, 2019 by Danzig

Ousted former CEO of Overstock, Patrick Byrne, revealed via a regulatory filing on Wednesday that he offloaded his entire holdings in the internet retailer he's been at the helm for since 1999.

In a post directed to former colleagues of the company, Byrne stated that by Friday, Sept. 20 all proceeds, minus tens of millions in taxes, will have made their way into counter-cyclical investments including gold, silver and two flavors of crypto.

The kooky businessman didn't, however, reveal which cryptocurrencies would receive a bid thanks to the cash injection.

Byrne's resignation last month followed a series of public self-disclosures of his involvement in FBI-linked espionage.

Indeed Byrne's tagline on his DeepCapture blog states: I am a concerned citizen who has been hunting the oligarchy since 2004 and the Deep State since 2006.

Byrne is well-known for punting security tokens in his days at Overstock but may elect to go the privacy coin route when transferring his wealth.

The crypto is stored in the place where all crypto is stored. In mathematical mist, behind long keys held only in the memory of someone who is quite good at storing such things. (With paper backups in the hands of a priest I met 35 years ago who never sits foot in the West).

Byrne should probably resist the temptation to reveal details about his private keys, however.

The entire episode reminds one of that other crypto conspiracy celebrity, John McAfee, who regularly reveals Twitter location clues as the CIA chases him around the globe.

As for the gold and silver, moving precious commodities in any large number for Byrne may prove tricky. He has plans in place for that too.

The gold and silver are stored outside of the United States. In Switzerland, and within two weeks, will be scattered in other locations that are even more outside of the reach of the Deep State.

The fire sale, which took place over three days, is worth around $90 million.It highlights the effect that dumping 5 million shares has on the market.

Overstock is down nearly 35% since Monday. Byrne sold progressively lower until he was finally liquidated around $16 a share.

Overstock witnessed a parabolic run to $80 a share in 2017, which coincided with the altcoin boom-bust phenomena. It has since stumbled in the aftermath.

Apart from this particular period, shares have largely traded sideways in the 25 years since listing.

Gold, on the other hand, is up 300% in the same period. Ultimately, though, the mantle for the best-performing asset of this century must go to bitcoin.

Whether Byrne chooses the flagship cryptocurrency or not still remains to be seen.

September 19, 2019 5:55 PM

View original post here:

Overstock Shares Crash as Former CEO Cashes Out Goes All In on Crypto and Gold - CCN.com

Tezos Pumps On Binance Listing, But What About US Crypto Exchange? – newsBTC

Posted on September 25, 2019 by Danzig

The worlds most popular cryptocurrency exchange, Binance, has listed smart contract-focused altcoin Tezos (XTZ) to its flagship website, causing the price to spike as much as 5% in the first couple hours after a listing announcement was made.

However, Tezos is notably missing from the list of the 30 altcoins Binance US is currently considering for listing, suggesting there may be little hope or at least an extended wait before Binance customers in the US can load up on the altcoin aimed at unseating Ethereum.

This morning, Binance CEO Changpeng Zhao shared the news that the Malta-based cryptocurrency exchange would be listing Tezos for trading under three crypto trading pairs. Tezos will be paired for trading with Bitcoin, the stablecoin Tether, and the firms native cryptocurrency token, Binance Coin which has been the top performing altcoin of 2019, beating out even Bitcoin itself.

Related Reading | Binance US Evaluating 30 Crypto Assets, Bitcoin and Ethereum Under Scrutiny?

Trading goes live on September 23 at 11:00AM UTC, and users may already begin depositing to their Binance accounts Tezos in anticipation of trading.

Tezos has already started to pump following the listing and is up as much as 5% within the first few hours after the announcement. Tezos was also listed on the San Francisco-based Coinbase at the start of August and trading opened to a 16% rise in value, suggesting that the Binance pump still has a ways to go before the listing rally fizzles out.

Tezos has only been listed on Binances flagship website a platform that recently blocked US-based customers from trading or making deposits and not the recently launched Binance US platform. Customers of the US-based exchange may be left waiting quite some time for Tezos to be listed on the stateside version of Binance.

Binances new exchange for US customers not only currently lacks a coinciding Tezos listing, but its also not even amongst the 30 cryptocurrency tokens the platform has revealed to be exploring for listing in the future.

While Binances move to separate US customers from its flagship website was necessary due to increased pressure from global finance market regulators, this latest Tezos listing demonstrates the glaring gap that could form in product offerings between the two platforms.

Related Reading | Can Coinbase Capitalize On Binance Becoming Less Attractive To US Crypto Investors?

US investors who make up the lions share of the crypto market would need to search elsewhere, such as Coinbase, to load up on Tezos. The more situations like this arise, the more likely crypto investors in the United States will turn to Coinbase instead of Binance putting the leaders stronghold over the market at risk.

See more here:

Tezos Pumps On Binance Listing, But What About US Crypto Exchange? - newsBTC

Nanotechnology improves chemotherapy delivery – MSUToday

Posted on September 25, 2019 by Danzig

Michigan State University scientists have invented a new way to monitor chemotherapy concentrations, which is more effective in keeping patients treatments within the crucial therapeutic window.

With new advances in medicine happening daily, theres still plenty of guesswork when it comes to administering chemotherapy to cancer patients. Too high a dose can result in killing healthy tissue and cells, triggering more side effects or even death; too low a dose may stun, rather than kill, cancer cells, allowing them to come back, in many cases, much stronger and deadlier.

Bryan Smith, associate professor of biomedical engineering, created a process based around magnetic particle imaging (MPI) that employs superparamagnetic nanoparticles as the contrast agent and the sole signal source to monitor drug release in the body at the site of the tumor.

Its noninvasive and could give doctors an immediate quantitative visualization of how the drug is being distributed anywhere in the body, Smith said. With MPI, doctors in the future could see how much drug is going directly to the tumor and then adjust amounts given on the fly; conversely, if toxicity is a concern, it can provide a view of the liver, spleen or kidneys as well to minimize side effects. That way, they could precisely ensure each patient remains within the therapeutic window.

Smiths team, which included scientists from Stanford University, used mice models to pair its superparamagnetic nanoparticle system with Doxorubicin, a commonly used chemotherapy drug. The results, published in the current issue of the journal NanoLetters, show that the nanocomposite combination serves as a drug delivery system as well as an MPI tracer.

MPI is a new imaging technology that is faster than traditional magnetic resonance imaging (MRI) and has near-infinite contrast. When combined with the nanocomposite, it can illuminate drug delivery rates within tumors hidden deep within the body.

As the nanocomposite degrades, it begins to release Doxorubicin in the tumor. Simultaneously, the iron oxide nanocluster begins to disassemble, which triggers the MPI signal changes. It will allow doctors to see more precisely how much medicine is reaching the tumor at any depth, Smith said.

We showed that the MPI signal changes are linearly correlated with the release of Doxorubicin with near 100-percent accuracy, he said. This key concept enabled our MPI innovation to monitor drug release. Our translational strategy of using a biocompatible polymer-coated iron oxide nanocomposite will be promising in future clinical use.

Smith has filed a provisional patent for his innovative process. In addition, the individual components of the nanocomposite Smiths team created have already earned FDA approval for use in human medicine. This should help speed FDA approval for the new monitoring method.

As the process moves toward clinical trials, which could potentially begin within seven years, Smiths team will begin testing multicolor MPI to further enhance the processs quantitative capabilities, as well as drugs other than Doxorubicin, he said.

(Note for media: Please include a link to the original paper in online coverage: https://pubs.acs.org/doi/abs/10.1021/acs.nanolett.9b01202)

Excerpt from:

Nanotechnology improves chemotherapy delivery - MSUToday

Global Nanotechnology Market Outlook 2024 – PRNewswire

Posted on September 25, 2019 by Danzig

DUBLIN, Sept. 24, 2019 /PRNewswire/ -- The "Global Nanotechnology Market Outlook 2024" report has been added to ResearchAndMarkets.com's offering.

Global nanotechnology market is expected to grow at a CAGR of around 17% during the forecasted period of 2018-2024

Global Nanotechnology Market Outlook 2024, analysts have conducted a segmented research on the nanotechnology industry, and have interpreted the key market trends & developments that clearly highlight the areas offering promising possibilities for industries to boost their growth.

In 2017, the global nanotechnology market has shown impressive growth owing to factors, like increase in government and private sector funding for R&D, partnerships & strategic alliances between countries, and increased in demand for smaller and more powerful devices at affordable prices. At present, the healthcare industry is one of the largest sectors where nanotechnology has made major breakthrough with its application for the diagnosis and treatment of chronic diseases like cancer, heart ailments, etc. Further, significant developments are also being done in other sectors like electronics, agriculture, and energy.

In this report, the analysts have studied the current nanotechnology market on segment basis (by application, by component and by region), so as to provide an insight on the current market scenario as well as forecasts of the aforementioned segments till 2024. The report provides an in-depth analysis of all the major segments, taking into account the major developments taking place at global level in the respective segments that will further boost the growth of nanotechnology market.

Further, the application section covers the use of nanotechnology in electronics, energy, cosmetics, medical, defence, and food and agriculture sectors; while the component section covers the segregation of nanotechnology market into nanomaterials, nanotools, and nanodevices.

Additionally, the report covers the country-level analysis of 13 major countries like the US, France, UK, Germany, and Russia among others in terms of R&D, nanotechnology patent analysis, funding and regulations, to provide an in-depth understanding about the investments and recent research & developments done in the field of nanotechnology.

Besides, the report covers the profiles of key players like Altair, Nanophase Tech, Nanosys, etc. with the key financials, strength & weakness analyses, and recent activities, providing a comprehensive outlook of global nanotechnology industry. Overall, the report provides all the pre-requisite information for clients looking to venture in this industry, and facilitate them to formulate schemes while going for an investment/partnership in the industry.

Key Topics Covered:

1. Analyst View

2. Research Methodology

3. Nanotechnology - An Introduction

4. Key Market Trends and Developments4.1 Nanotech Tools Open Market for more Miniature Electronics4.2 Nanotechnology Accelerating Healthcare and Medical Device Industry4.3 International Collaborations for Nanotechnology Research4.4 Nanotechnology Playing a Vital Role in the Growth of Energy Industry4.5 Nanotechnology Playing a Key Role in the Growth of Food & Agriculture Industry

5. Nanotechnology Market Outlook to 20245.1 By Components5.1.1 Nanomaterials5.1.2 Nanotools5.1.3 Nanodevices5.2 By Major Applications5.2.1 Electronics5.2.2 Energy5.2.3 Cosmetics5.2.4 Biomedical5.2.5 Defense5.2.6 Food and Agriculture

6. Country-Level Analysis6.1 US6.1.1 Funding6.1.2 Research & Developments6.1.3 Regulations6.2 Brazil6.3 Germany6.4 France6.5 UK6.6 Ireland6.7 Russia6.8 Japan6.9 South Korea6.10 Taiwan6.11 China6.12 India6.13 Australia

7. Patents Analysis

8. Competitive Landscape8.1 Altair Nanotechnologies Inc.8.2 Nanophase Technologies Corporation8.3 Nanosys, Inc.8.4 Unidym, Inc. (subsidiary of WisePower Co.)8.5 Ablynx8.6 ZyvexCorporation8.7 Acusphere, Inc.8.8 Chasm Technologies, Inc.8.9 PEN, Inc8.10 Bruker Nano GmbH8.11 Advanced Diamond Technologies, Inc.

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

Research and Markets also offers Custom Research services providing focused, comprehensive and tailored research.

Media Contact:

Research and Markets Laura Wood, Senior Manager press@researchandmarkets.com

For E.S.T Office Hours Call +1-917-300-0470 For U.S./CAN Toll Free Call +1-800-526-8630 For GMT Office Hours Call +353-1-416-8900

U.S. Fax: 646-607-1907 Fax (outside U.S.): +353-1-481-1716

SOURCE Research and Markets

http://www.researchandmarkets.com

Read this article:

Global Nanotechnology Market Outlook 2024 - PRNewswire

Tree of Knowledge International and Ryerson University’s Nanotechnology Research Project Expands to Include the Development of Targeted Treatments for…

Posted on September 25, 2019 by Danzig

TORONTO, ON, Sept. 25, 2019 (GLOBE NEWSWIRE) -- via NEWMEDIAWIRE -- Tree of Knowledge International Corp. (CSE: TOKI; OTCBB: TOKIF) (the Company or TOKI) is pleased to announce that TOKI and Ryerson University (Toronto, Canada) are expanding their current research project to develop a new nanotechnology-enhanced delivery method for medical cannabis and cannabinoid molecules. Added to the initial goal of creating targeted treatments for pain conditions is a pioneering application to combat cancerous tumours.

The two-year research project sponsored by TOKI and led by Ryerson professors Jahan Tavakkoli PhD (principal investigator) and Michael Kolios PhD (co-principal investigator), with the support of new post-doctoral fellow hire Anshuman Jakhmola PhD, leverages the clinical expertise of TOKIs medical advisor, Dr. Kevin Rod. It also extends a long-standing collaboration between Ryerson and TOKIs wholly owned subsidiary, Toronto Poly Clinic, in developing new medical devices and technologies with applications for various medical conditions.

In this project, the nanocarriers we are developing, which will be coated with two different types of cannabinoid molecules, will be employed in targeted drug delivery applications using our proprietary therapeutic ultrasound technology to achieve a novel and effective method in treating cancerous tumours as well as pain, explained Professor Tavakkoli. The main R&D activities in this project will be conducted in the iBEST research lab, a state-of-the-art facility located at and affiliated to St. Michaels Hospital, Toronto, Canada.

It is novel to use ultrasound-assisted cannabis-loaded nanotechnology to precisely target a variety of cancerous tumours and, as a result, also reduce harmful or unwanted side effects in other parts of the body, added Dr. Rod. This work is at the cutting edge of science and technology.

With over a decade of successful collaboration between Toronto Poly Clinic and Ryerson University, the team is well-positioned to take its current research project one step further to develop applications for cancer treatment.

Cancer is among the leading causes of death worldwide, and our team is well suited to fight it through this new technology, said Dr. Rod. And TOKI couldnt have a better partner than Ryerson University. Ryersons expertise in medical physics and technology and its long-standing strategy of supporting applied research in this field, up to the point of product development and commercialization, make this ground-breaking work possible.

For more details about this partnership research project, clickherefor the July 15, 2019 media release.

ABOUT RYERSON UNIVERSITY

Ryerson University is Canadas leader in innovative, career-oriented education. Urban, culturally diverse and inclusive, it is home to more than 45,300 students, including 2,600 Masters and PhD students, 3,800 faculty and staff, and nearly 198,000 alumni worldwide.

ABOUT TREE OF KNOWLEDGE INTERNATIONAL CORP.

With its head office in Toronto, and operations in North York, Ontario and Spokane, Washington, TOKI currently has three primary business segments: (1) Multidisciplinary specialty pain clinics with a focus on the treatment of chronic pain, including controlled applications of medical cannabis in Canada, (2) Development of formulated products for therapeutic purposes and natural health product alternatives at its manufacturing facility in Spokane, which provides formulations for the Companys products and for third parties equivalent to GMP standards, and (3) Distribution and sale of hemp-based cannabidiol (CBD) products in the United States, Canada, Europe, Brazil and Australia. Through its Toronto Poly Clinic, the Company has gleaned extensive expertise from being involved in one of the largest observational clinical trials on medical cannabis and from its ongoing direct patient experience. The Company has developed and implemented MCERP (Medical Cannabis Education, Research and Best Practice Platform) and MCORP (Medical Cannabis Opioid Reduction Program) with great success. Currently, the Company has research agreements with multiple universities for medical cannabis research and new medical grade products development. TOKIs CBD product line contains EVR Premium Hemp Oil, which is an organically grown and handled, gluten-free, vegan, non-GMO, synergistic compound that is derived from U.S. Department of Agriculture (USDA) approved industrial hemp grown in the United States. TOKI currently offers several CBD products, which may be used in connection with the treatment of a number of ailments and for general wellness purposes.

For further information please visit:www.tok.ca

Or contact:Tree of Knowledge International Corp.

Michael Caridi, ChairmanTel: +1 (917) 295-1374Michael@tok.ca

THE CSE HAS NOT REVIEWED AND DOES NOT ACCEPT RESPONSIBILITY FOR THE ACCURACY OR ADEQUACY OF THIS RELEASE.

Forward Looking Statements

This news release contains forward-looking statements relating to the benefits to be received from entering into a collaboration with Ryerson University and the timing thereof, the future operations of TOKI and other statements that are not historical facts. Forward-looking statements are often identified by terms such as "will", "may", "should", "anticipate", "expects" and similar expressions. All statements other than statements of historical fact, included in this release, including, without limitation, statements regarding the collaboration with Ryerson University and the future plans and objectives of TOK, are forward looking statements that involve risks and uncertainties. There can be no assurance that such statements will prove to be accurate and actual results and future events could differ materially from those anticipated in such statements. Important factors that could cause actual results to differ materially from TOKI's expectations are risks detailed from time to time in the filings made by TOKI with securities regulations.

The reader is cautioned that assumptions used in the preparation of any forward-looking information may prove to be incorrect. Events or circumstances may cause actual results to differ materially from those predicted, as a result of numerous known and unknown risks, uncertainties, and other factors, many of which are beyond the control of TOKI. As a result, TOKI cannot guarantee that any forward-looking statement will materialize and the reader is cautioned not to place undue reliance on any forward-looking information. Such information, although considered reasonable by management at the time of preparation, may prove to be incorrect and actual results may differ materially from those anticipated. Forward-looking statements contained in this news release are expressly qualified by this cautionary statement. The forward-looking statements contained in this news release are made as of the date of this news release and TOKI will update or revise publicly any of the included forward-looking statements as expressly required by Canadian securities law.

View post:

Tree of Knowledge International and Ryerson University's Nanotechnology Research Project Expands to Include the Development of Targeted Treatments for...

Global Pharmaceutical Packaging Market Report 2019-2025 – Integration of Nanotechnology in Packaging Spurs Opportunities – ResearchAndMarkets.com -…

Posted on September 25, 2019 by Danzig

DUBLIN--(BUSINESS WIRE)--The "Pharmaceutical Packaging Market: Global Industry Analysis, Trends, Market Size, and Forecasts up to 2025" report has been added to ResearchAndMarkets.com's offering.

The report predicts the global pharmaceutical packaging market to grow with a CAGR of 6.21% over the forecast period from 2019-2025.

The report on the global pharmaceutical packaging market provides qualitative and quantitative analysis for the period from 2017 to 2025. The study on pharmaceutical packaging market covers the analysis of the leading geographies such as North America, Europe, Asia-Pacific, and RoW for the period of 2017 to 2025.

The report on pharmaceutical packaging market is a comprehensive study and presentation of drivers, restraints, opportunities, demand factors, market size, forecasts, and trends in the global pharmaceutical packaging market over the period of 2017 to 2025. Moreover, the report is a collective presentation of primary and secondary research findings.

Porter's five forces model in the report provides insights into the competitive rivalry, supplier and buyer positions in the market and opportunities for the new entrants in the global pharmaceutical packaging market over the period of 2017 to 2025. Further, Growth Matrix gave in the report brings an insight into the investment areas that existing or new market players can consider.

Report Findings

1) Drivers

2) Restraints

3) Opportunities

What does this report deliver?

1. Comprehensive analysis of the global as well as regional markets of the pharmaceutical packaging market.

2. Complete coverage of all the segments in the pharmaceutical packaging market to analyze the trends, developments in the global market and forecast of market size up to 2025.

3. Comprehensive analysis of the companies operating in the global pharmaceutical packaging market. The company profile includes analysis of product portfolio, revenue, SWOT analysis and latest developments of the company.

4. Growth Matrix presents an analysis of the product segments and geographies that market players should focus to invest, consolidate, expand and/or diversify.

Key Topics Covered

1. Preface

1.1. Report Description

1.2. Research Methods

1.3. Research Approaches

2. Executive Summary

2.1. Pharmaceutical Packaging Market Highlights

2.2. Pharmaceutical Packaging Market Projection

2.3. Pharmaceutical Packaging Market Regional Highlights

3. Global Pharmaceutical Packaging Market Overview

3.1. Introduction

3.2. Market Dynamics

3.2.1. Drivers

3.2.2. Restraints

3.2.3. Opportunities

3.3. Porter's Five Forces Analysis

3.4. Growth Matrix Analysis

3.4.1. Growth Matrix Analysis by Type

3.4.2. Growth Matrix Analysis by Material

3.4.3. Growth Matrix Analysis by Region

3.5. Value Chain Analysis of Pharmaceutical Packaging Market

4. Pharmaceutical Packaging Market Macro Indicator Analysis

5. Global Pharmaceutical Packaging Market by Type

5.1. Bottles

5.2. Blister Packaging

5.3. Pre-fillable Syringes

5.4. Vials & Ampules

5.5. Labels & Accessories

5.6. Caps & Closures

5.7. Jars & Canisters

5.8. Other Types

6. Global Pharmaceutical Packaging Market by Material

6.1. Plastics & Resins

6.2. Paper & Paperboard

6.3. Glass

6.4. Metal Foils

6.5. Other Materials

7. Global Pharmaceutical Packaging Market by Region

7.1. North America

7.2. Europe

7.3. Asia-Pacific

7.4. RoW

8. Company Profiles and Competitive Landscape

8.1. Competitive Landscape in the Global Pharmaceutical Packaging Market

8.2. Companies Profiled

8.2.1. Amcor PLC

8.2.2. 3M Company

8.2.3. Becton, Dickinson and Company

8.2.4. CCL Industries Inc.

8.2.5. Constantia Flexibles Group

8.2.6. Gerresheimer AG

8.2.7. West Pharmaceutical Service Inc.

8.2.8. Schott AG

8.2.9. AptarGroup Inc.

8.2.10. WestRock Company

8.2.11. Other Companies

For more information about this report visit https://www.researchandmarkets.com/r/fdde4

AgCenter researcher applies nanotechnology to pesticides | Local/State Headlines – The Franklin Sun

Posted on September 25, 2019 by Danzig

Nanoparticles made from the corn protein zein may provide the next generation of carriers for agricultural pesticides.

A research team led by scientists in the LSU AgCenter has been awarded a four-year grant of $489,000 from the U.S. Department of Agriculture National Institute of Food and Agriculture to study the environmental fate and effects of engineered nanoparticles particles that are 1,000 times smaller than the width of a human hair developed to deliver agricultural chemicals.

The study, led by AgCenter researcherCristina Sabliovin the Department of Biological and Agricultural Engineering, focuses on the interactions between thezein nanoparticles, called ZNPs, and the environment, including plants and insects.

As pesticide carriers, the particles entrap the chemicals and provide more-targeted application with less runoff or improper exposure. The ZNPs are biodegradable.

We want to know their impacts on plants and insects, Sabliov said. Were taking an integrated approach to see what happens with the ZNPs in the environment.

Most pesticides are not water soluble, so they must be formulated with surfactants or solvents before spraying on a plants surface. The ZNPs, on the other hand, are water soluble and can be used as carriers for the pesticides.

The project will assess the ZNPs as a chemical delivery system and evaluate how they adhere to a plants leaves and roots and move through them.

To get the material to adhere to a plant, the ZNPs must carry a positive electrical charge because the leaf surface has a negative charge. Surface properties of nanoparticles make a difference on how they move in the environment, degrade and affect the entrapped pesticide.

To test the environmental effects of the ZNPs, Sabliov and researcherCarlos Asteteare developing nanoparticles with three electrical charges positive, negative and neutral. To assure the environmental safety of the ZNPs, Sabliovs team includes two scientists who will evaluate the environmental effects of the particles that have a positive, negative or neutral charge.

Melanie Kahat the University of Auckland in New Zealand will evaluate the environmental fate of the particles, including their persistence in nature.Jason White,chief analytical chemist at the Connecticut Agricultural Experiment Station, will test how the particles affect plant health.

In both cases, the particles will be empty, containing no pesticides.

This will ensure the effects of the carrier itself are measured, and the hope is that the particles will not be harmful to plants or the environment, Sabliov said. They will be field tested and not be restricted to a laboratory.

The scientists know the ZNPs will degrade. The question they want to answer is how long it will take and what will happen in the meantime. Because the materials are biodegradable, we know they are safe by design, Sabliov said.

In addition to environmental activity, AgCenter entomologistJeff Daviswill test ZNPs with an entrapped insecticide to determine their effectiveness as a pesticide carrier for treating for soybean loopers, an important soybean defoliator; fall armyworms; and corn earworms.

We want to use ZNPs to improve the efficiency of pesticides without impacting the environment, Sabliov said. Early indications are that the pesticide has longer efficacy in the plant when its applied in ZNPs.

Sabliov began her work with nanoparticles and pharmaceuticals and moved on to expand her research to improve the environmental safety of agricultural chemicals.

Sabliovs early work with ZNPs and soybean looper pesticides was funded with grants from the Louisiana Soybean and Grain Promotion Board. She also has had support from the Louisiana Farm Bureau.

Go here to read the rest:

AgCenter researcher applies nanotechnology to pesticides | Local/State Headlines - The Franklin Sun

New York will invest $500 million to bring this company to upstate, or $814,000 per job – Rochester Democrat and Chronicle

Posted on September 25, 2019 by Danzig

SUNY Polytechnic Institute has made many promises for jobs and economic development at Canal Ponds business park in Greece, Monroe County. None have panned out so far. Jon Campbell / Albany Bureau

ALBANY A nanotechnology company announced Monday it will invest $1 billion to build amanufacturing facility at astruggling high-tech plant in Utica aided by $500 million in incentives from New York state.

Cree, Inc., based in Durham, N.C., said it will build the "worlds largest silicon carbide fabrication facility" at the SUNY Polytechnic Institute's Marcy nanoncenter in central New York.

The state incentives are significant. The company expects to have 614 direct jobs within eight years. That comes to $814,000 a job in state incentives if all the jobs materialize.

The announcement comes three years afterAms AG, an Austrian semiconductor manufacturer, pulled out of a plan to invest more than $2 billion at the plant amid a scandalthat rocked SUNY Poly and led to the conviction of its president, Alain Kaloyeros.

The state has tried for years to officially turn the page from the scandal that embroiled Kaloyeros and Gov. Andrew Cuomo's former top aide Joseph Percoco, who is in prison for bribery, and find a new tenant for the sprawling Marcy campus.

Now it appears New York found a company at a sizable cost to taxpayers.

Cree said it will invest $1 billion into building the 480,000 square-foot plant through 2022. The state will kick in the $500 million grant through Empire State Development, the state's economic development arm.

SUNY Polytechnic Institute in Utica is looking to find a new anchor tenant after its president Alain Kaloyeros resigned and was convicted in a kick-back scandal. It announced Monday a deal to bring a North Carolina based company to the site.(Photo: Shawn Dowd/Democrat and Chronicle)

The company said it will also be eligible for additional local incentives and abatements, as well as equipment and tooling from SUNY Poly, which has a massive nanocenter in Albany.

Cuomo, appearing by phone, touted the investment at an event at the siteMonday afternoon. Construction is expected to start in the spring, and it is scheduled to open in 2020.

This partnership is vital to strengthening the research and scientific assets that New York state needs todayto attract the high-tech industries and jobs of tomorrow, he said in a statement.

The company's $1 billion investment is over six years, and the roughly 600 jobs are expected within eight years, Cuomo's office said. The average salary is expected to be $75,000.

Cuomo's office estimated an additional 570 indirect jobs through the project.

The state's grant is performance based, meaning the public money is tied to job performance and the company's investment.

The money will alsoreimburse a portion of Crees costs of "fitting out the new facility and acquiring and installing machinery and equipment, as well as $1 million in Excelsior Jobs tax credits."

The company will also lease space at the SUNY Poly campus in Albany to use the equipment there.

The company said it hopes to take a leading role in the transition from silicon to silicon carbide technology through its Wolfspeed technology that supports electric vehicles, 4G/5G mobile networks and industrial products.

"This partnership will be a key part of our work to strengthen the research and scientific assets that New York state will use to attract the industries and jobs of tomorrow,Empire State Development acting commissioner Eric Gertler said in the company's statement.

If the deal is successful, it could help the state start to rebuild its SUNY Poly network of projects, which also includes a strugglingphotonicscenter in Rochester.

Empire State Development pledged years ago to investmore than $600 million in the Utica plant and took over management of SUNY Poly's economic-development portfolio after Kaloyeros' downfall. This $500 million is part of the $600 million that was initially committed to the site.

SUNY Poly is also heavily in debt because of its rapid buildout under Kaloyeros that was pushed by Cuomo to expand the college's success in Albany to other parts of the state, including Buffalo, Rochester and Utica.

More: As funding clock ticks down, feds assess future of photonics hub

More: After failed deals, can SUNY Poly save itself from 'danger'?

Read or Share this story: https://www.democratandchronicle.com/story/news/politics/albany/2019/09/23/new-york-invest-500-million-bring-company-upstate/2419641001/

See the original post here:

New York will invest $500 million to bring this company to upstate, or $814,000 per job - Rochester Democrat and Chronicle

Worker &Consumer Exposure to Engineered Nanomaterials – The National Law Review

Posted on September 25, 2019 by Danzig

Since 1996, Carla Hutton has monitored, researched, and written about regulatory and legislative issues that may potentially affect Bergeson & Campbell, P.C. (B&C) clients. She is responsible for creating a number of monthly and quarterly regulatory updates for B&C's clients, as well as other documents, such as chemical-specific global assessments of regulatory developments and trends. She authors memoranda for B&C clients on regulatory and legislative developments, providing information that is focused, timely and applicable to client initiatives. These tasks have proven invaluable to many clients, keeping them aware and abreast of developing issues so that they can respond in kind and prepare for the future of their business.

Ms. Hutton brings a wealth of experience and judgment to her work in federal, state, and international chemical regulatory and legislative issues, including green chemistry, nanotechnology, the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA), the Toxic Substances Control Act (TSCA), Proposition 65, and the Registration, Evaluation, Authorization and Restriction of Chemicals (REACH) program.

Worker &Consumer Exposure to Engineered Nanomaterials - The National Law Review

Coulter Partners Fills Board Position for Nanotechnology Company Nanoform – Hunt Scanlon Media

Posted on September 25, 2019 by Danzig

September 20, 2019 Although boards of directors are considered the backbones of organizations,director recruiting has grown markedly more challenging, say recruiters who conduct searches in that area.As a result, companies continue to turn to executive search firms to help find new board members.

Recently,life sciences-focused executive search firmCoulter Partnersplaced Mads Laustsen as a non-executive board member for Helsinki-based drug particle engineering and nanotechnology company Nanoform. Client partner Eskil Westh led theassignment.

Bridging the Diversity Gap on Boards

A stubborn paradox exists within boardrooms across America. Companies are appointing more women to board seats than ever before, yet the overall share of women directors is barely budging. While business leaders have gotten the clear message that diversity matters in the workplace, it is equally clear that current methods of sourcing and selecting candidates is falling short.

Peggy Alford, a senior executive with PayPal who was just elected as the first African American woman to join the nine-member board of social media giant Facebook, joins Hunt Scanlon Media in New York on Nov. 6 to examine the disconnect between the business communitys intent to achieve greater equality on their boards and the realization of attaining that goal. She will explore why every company needs to cultivate a culture of inclusiveness and she will outline steps for companies and recruiters to take to boost diversification at a faster rate.

Join Peggy atNext-Gen Leaders: Advancing Women to the C-Suite!Women business leaders are looking for fresh pathways to the top . . . to help them get there we will draw on her expertise as well as top HR, talent, recruitment, and C-suite leaders from other blue-chip brands, including IBM, the New York Times, Littlejohn, LinkedIn, Avaya, WarnerMedia Entertainment, Pfizer, PepsiCo, the Philadelphia Flyers, PayPal, Facebook and a host of others.

Sponsor orsign upto attend today!

It gives me great pleasure to welcome Mads Laustsen to the Nanoform board, said Edward Hggstrm, CEO of Nanoform. Mads is an exceptional entrepreneur with vast experience in the provision of GMP facilities and infrastructures. His outstanding experience will be incredibly valuable as we expand our manufacturing capacity and I thank the highly professional team at Coulter Partners for helping us once more to achieve such a quality appointment.

Mr. Laustsen has over 30 years of experience in pharmaceutical development and manufacturing. As co-founder and CEO of the international biologics contract manufacturing organization CMC Biologics, he was responsible for the creation, development and operation of facilities in Europe and the U.S. He has extensive experience in process development and patenting, and holds senior positions within a number of Danish biotechnology companies, including Synklino, Bactolife and Symphogen.

Related:U.S. Boards Seen as Slowly Evolving

The appointment of Mr. Laustsen to the board coincides with the rapid construction progress of Nanoforms GMP manufacturing plant. Increased capacity, combined with Mr. Laustsens deep knowledge of manufacturing development, will enable Nanoform to achieve its aim of doubling the number of drug compounds that successfully reach the market and adding value to Pharma clients existing pipelines, said the company.

I am excited to be joining the Nanoform board as the company prepares to further international commercialization of its best-in-class nanonization technology, Mr. Laustsen said. I look forward to working with the ambitious and skilled Nanoform team as they enable more patients around the world to benefit from enhanced drug therapies.

The 7 Hallmarks of Effective Boards

In this brand new episode of Talent Talks, we delve into the seven hallmarks of building effective boards with our host Andrew Mitchell, alongside Sabine Dembkowski, managing partner at Better Boards.

According to Ms. Dembkowski, there is indeed a question about the relevance of boards today. There is a disconnect from what we are seeing between boards and the knowhow that is necessary to be successful in the 21st century, said Ms. Dembkowski. Listen now!

Nanoform is an innovative nanoparticle medicine enabling company that works together with pharma and biotech partners globally to reduce clinical attrition and enhance their molecules formulation performance through its best-in-class nanonization services.

Last year, Nanoform turned to Coulter Partners to find chief commercial officer Christian Jones. Mr. Westh also led that search. Mr. Jones has international business development and commercial experience within both pharmaceutical, and biotechnology industries, specifically in the particle engineering and drug delivery fields, said Coulter Partners.He joined Nanoform from Johnson Matthey, where he was commercial director for European API development and manufacturing.

Life Sciences Specialists

Coulter Partners is a senior-level executive search boutique focused exclusively on identifying global life sciences leaders and board directors. The firm serves clients in the pharmaceuticals, biotechnology, medical devices, diagnostics, CRO and services sectors. Coulter operates overseas offices in the U.K., Germany, Switzerland and Denmark. In the U.S., the firm has offices in Cambridge, MA; Princeton, NJ; Pittsburgh, PA; Los Angeles; and Short Hills, NJ.

Mr. Westh heads the Nordics team from the Danish office, which opened in 2015. He concentrates on senior-level searches across Europe, and with a focus ranging from venture capital backed start-ups to larger, established pharmaceutical, biotechnology and medical devices affiliates. Mr. Westh has over 18 years search experience across a broad spectrum of life sciences businesses in the Nordics and the rest of Europe, with a strong track record of scientific and commercial appointments.

Related:10 Key Findings That Impact Board Performance

Contributed by Scott A. Scanlon, Editor-in-Chief; Dale M. Zupsansky, Managing Editor; Stephen Sawicki, Managing Editor; and Andrew W. Mitchell, Managing Editor Hunt Scanlon Media

Read the rest here:

Coulter Partners Fills Board Position for Nanotechnology Company Nanoform - Hunt Scanlon Media

Nanotechnology in Dental Implants Market Competitive Landscape and Key Product Segments – OnYourDesks

Posted on September 25, 2019 by Danzig

Nanomaterials influence the osteointegration process and remarkably reduce the chances of infection. As per a report by the American Academy of Implant Dentistry, the country-wide market in the U.S. alone is witnessing 500,000 new cases of dental implants per year. Similar surge has been observed across the world and as a result, the global Nanotechnology in Dental Implants Marketis expected to expand at a healthy growth rate during the forecast period of 2016 to 2024.

The lower failure rate of dental implants is one of the primary reason that inspires consumers. With nanomaterials, the added advantages such as improved bone healing, improved osseointegration, and reduction in infections is expected to further augment the demand in the global market for nanotechnology in dental implants. It has been observed that dental surgeons and general practitioners are increasingly adopting the new technology over the other available alternatives. Moreover, high number of edentulous population in the western world and the increasing disposable income in Asia, Africa and other parts of the world is expected to propel the demand in near future. The awareness pertaining to dental care is also on the rise, which is opening an opportunity for the players in the market to invest proactively in order to gain shares.

Request to View Brochure of Report

https://www.transparencymarketresearch.com/sample/sample.php?flag=B&rep_id=2403

The field of dentistry procedures has also been benefitted by the introduction of technologies such as CAD/CAM, which offers wide range of options to the patients. For example, ceramic crowns offer better esthetics, while metal-fused ceramic crown offer greater strength. Conversely, high cost of procedure and the lack of reimbursement is expected to hinder the growth rate during the forecast period.

On the basis of products, the global market for nanotechnology can be segmented into titanium dental implants, ramus-frame dental implants, root-form dental implants, blade-form dental implants, and transosseous dental implants. The segment of titanium dental implants can be further sub-segmented basis of stages involved in surgery (single stage & two stage), and type of connectors (internal hexagonal, external hexagonal, and internal octagonal). By procedure, the global market for nanotechnology in dental implants can be classified into root-form dental implant and plate-form dental implant. Out of these, root-form dental implants are the most prolifically used dental implants, owing to its durability and high success rate in comparison to other types of implants.

See the original post:

Nanotechnology in Dental Implants Market Competitive Landscape and Key Product Segments - OnYourDesks

How nanotechnology can be used to intensify our sense of smell – ThePrint

Posted on September 25, 2019 by Danzig

Text Size:A- A+

Bengaluru: Imagine the possibility of a hand-held gadget, perhaps your mobile phone, augmenting your senses smell, taste, touch, vision and audition. Let us consider a specific example of smell sensation.

Human nose has about 6 million sensors and capability to detect nearly one trillion odours. The canine nose is even more sophisticated and powerful with 300 million sensors. What if we can create a chip with a few billion nanosensors (olfactory receptors) and embed it in the cell phone! Then we can augment our nose: Determine the concentration of hazardous gases in the environment, or even carry out the exhaled breath analysis for possible disease diagnosis. The possibilities would be mind-boggling.

The next frontier for nanotechnology, actually, lies in revolutionising the way humans interact with the environment, through the sensory perceptions. While this might sound extremely difficult, akin to science fiction, we can draw inspiration from what we have achieved in semiconductor technology over the last few decades for micro/nanoelectronic chips.

Enabled by the miniaturisation of silicon transistors, the chip revolution has given us the capabilities to create a few billion transistors on a chip to yield an unprecedented performance for computation, storage and communication applications. Perhaps, we can use similar technology to create olfaction chips with a few billion nanosensors.

I surmise that the architecture of such a chip should necessarily be three dimensional (3D) with a few billion olfactory sensors created on top of a powerful silicon chip fabric with computation, storage and communication capabilities. This would facilitate the efficient processing of signals coming from the nanosensors without being influenced by external noise sources.

This architecture mimics the biological pathway of smell-sensing, analogous to the front-end sensors in the nose, followed by the powerful computation and pattern recognition engine at the back end, in the brain.

I believe that the semiconductor nanosensors are the most suitable receptors for this architecture. They work on the principle that the electrical resistance of the sensor changes, when a chemical (odour) molecule attaches to the sensor.

Also read: This Indian scientist is working on motor proteins to help the world understand obesity

The magnitude of the electrical resistance can be calibrated to estimate the concentration of a particular molecule. In order to achieve the complex electronic nose, the sensors have to be created using a very large variety of nanomaterials to detect a wide range of characteristic features of an odour.

The material set can include different types of metal oxide semiconductors, organic polymers, 2D layered materials such as transition metal dichalcogenides. It is also essential that appropriate low temperature processing techniques such as printing, dispensing or other additive-manufacturing techniques should be developed with nanoscale resolution to deposit these materials on top of the silicon chip, so that the underlying computation fabric does not get affected while the nanosensors are integrated on top.

Since the interpretation of a specific odour is a complex pattern recognition problem, such a chip should have a powerful artificial intelligence (AI) algorithm/engine, preferably on hardware. In order to facilitate this, the underlying silicon compute engine can be complemented using AI accelerator engine, constructed either using digital architecture or with neuromorphic architecture.

To summarise, nanosensors enabling the ambient intelligence, through highly-augmented sensory perception, will be one of the biggest frontiers for nanotechnology in the next few decades.

This can be achieved through a combination of multiple breakthroughs, including nanomaterials processing technology, massively parallel nanosensor array architecture, heterogeneous 3D integration of sensors with computation-storage-communication engines and the capability to handle big data obtained from nanosensors through AI algorithms.

Navakanta Bhat is a professor at Indian Institute of Science, Bengaluru, and Chairperson, Centre for Nano Science and Engineering, IISc. Bhat won the Infosys Prize 2018 in Engineering and Computer Science.

Also read: Neuroscience is the missing link that can separate terrorists from non-violent extremists

ThePrint is now on Telegram. For the best reports & opinion on politics, governance and more, subscribe to ThePrint on Telegram.

Originally posted here:

How nanotechnology can be used to intensify our sense of smell - ThePrint

UAE kicks off tests on cloud seeding with nano-tech – Gulf News

Posted on September 25, 2019 by Danzig

Salt flares used in cloud seeding. Image Credit: Supplied

National Centre of Meteorology, NCM, has launched nanomaterials testing campaign in cloud seeding operations through the UAE Research Programme for Rain Enhancement Science, which investigates the efficiency of unique and innovative new cloud seeding materials through flights and testing that took place from Al Ain Airport over the Northern and Eastern parts of the UAE.

Professor Linda Zou, a Professor at Khalifa University and one of the three awardees of the Programme's First Cycle, tests core and shell composite nanomaterial for its effectiveness as cloud condensation nuclei by dispersing the material into clouds. Currently, a custom-designed Learjet research aircraft equipped with sophisticated sensors and measurement probes is being utilised to gather data of the cloud components which is led byNCMin cooperation with global experts in the field.

Launched by the Ministry of Presidential Affairs of the UAE in early 2015 and managed by the NCM, the UAE Research Programme for Rain Enhancement Science is an ambitious initiative of global scope designed to stimulate rain enhancement research and accelerate water security through international cooperation in scientific research and development.

Dr Abdulla Al Mandous, Director of the NCM & the President of the Regional Association II in the Asia Region, said, "Thanks to the constant support of His Highness Sheikh Mansour bin Zayed Al Nahyan, Deputy Prime Minister and Minister of Presidential Affairs, the UAE Research Programme for Rain Enhancement Science continues to bolster its global reputation as a leader in its field. I am delighted that the highly creative work undertaken by Professor Zou's team has progressed to the extent that the groundbreaking materials developed are ready for field testing and potential large-scale production. This result demonstrates how NCM through the Program is succeeding in attracting significant participation from leading international scientific experts and helping to boost water security for those at risk around the world."

This campaign is an important part of the implementation and testing plan of the NCM, which consists of a titanium dioxide nanoparticle layer coated on the salt crystals. The ground-breaking project has already led to innovative hydrophilic and hygroscopic cloud seeding materials being designed and fabricated. Experimental results obtained so far through laboratory testing and analysis suggest that this material has a much higher ability to initiate condensation of water vapour and droplet growth in the clouds than the salt crystals that are currently used for rain enhancement in the UAE.

The originality of Professor Zou's research project is demonstrated by the filing of two worldwide patents with the United States Patent and Trademark Office, USPTO, in 2017 and 2018 for a new application of cloud seeding through nanotechnology. Now the technology has been moved from laboratory into the scale-up process. Based on production trials of the nanomaterial using dry particle coating process by an American manufacturing and R&D company specialising in particle technology, the nanomaterial could potentially be cost-effective when produced on a large scale.

Alya Al Mazroui, Director of the UAE Research Program for Rain Enhancement, said, "The success of Professor Zou's team's innovative project demonstrates that the UAE Research Programme for Rain Enhancement Science is already bearing fruit in terms of generating new knowledge with real-world applications. We are continuing to position the UAEREP as a focal point for productive scientific and technological exchange between some of the world's leading experts in this field."

The research campaign is being carried out in collaboration with experts from the NCM. In addition, Dr Paul Lawson, a Programme Second Cycle awardee, and his team from SPEC Incorporated in the United States will also contribute to the campaign along with Dr Deon Terblanche, a former Director of Research at the World Meteorological Organisation, WMO.

Professor Zou said, "Nanotechnology opens up the possibility of engineering unique cloud seeding particles to make the process of water condensation and rain precipitation more efficient. I am very grateful for the support given by the NCM and the UAE Research Programme for Rain Enhancement Science and the immensely important contribution they have made to accelerating new research in this field and unlocking the exciting potential of nanomaterials for cloud seeding."

Continued here:

UAE kicks off tests on cloud seeding with nano-tech - Gulf News

Nanotechnology in Water Treatment Market Value Chain Analysis and Forecast up to 2027 – BitGmx

Posted on September 25, 2019 by Danzig

Nanotechnology in Water Treatment Market: Overview

Lack of access to safe drinking water and water shortages across the globe pose a major threat to people across the world. Nanotechnology is one of the emerging technologies that can play a key role in resolving water crisis by introducing inexpensive and effective water treatment techniques. In water treatment, nanotechnology is used for water purification or filtration by means of nanoscopic materials such as alumina fibers and carbon nanotubes. It also employs nanocatalysts, zeolite filtration membranes, titanium oxide nanowires, palladium nanoparticles, and magnetic nanoparticles. Nanotechnology in water treatment offers various advantages over the conventional water treatment process, such as large surface area, high efficiency, enhanced absorption, and low pressure requirement across the filter.

Nanotechnology in Water Treatment Market: Key Segments

The global nanotechnology in water treatment can be segmented in terms of nanomaterial and application. Based on nanomaterial, the nanotechnology in water treatment smarket can be segmented into nanoadsorbents, nanometals/nanometals oxides, and nanomembranes. Nanomembranes are used for removal of contaminants and softening of water in any type of water or wastewater treatment system. Nanomembrane-based water treatment process is highly reliable and it provides a physical barrier for contaminants, based on their molecule size and pore size. Nanomembranes require a large amount of energy during the water treatment process. Water treatments that use nanometals or nanometals oxides, such as titanium dioxide and nanosilver, present a low-cost water purification technique. These nanomaterial are highly abrasion resistant and super magnetic in nature. They offer short diffusion distance. Nano adsorbents aid in the removal of heavy metals, organic materials, and bacteria from water. They have high adsorption rate and surface area, but their production cost is high.

Based on application, the global nanotechnology in water treatment market can be segmented into potable water treatment and industrial water treatment. Nanofiber membranes in potable water treatment application are gaining momentum in the water treatment industry, due to their structural properties such as large surface area and high adsorption rate. These membranes help in improving the water quality through their antimicrobial activity. All these factors are boosting the demand for nanotechnology in water treatment.

Browse more detail information about this report visit at at https://www.transparencymarketresearch.com/nanotechnology-in-water-treatment-market.html

Nanotechnology in Water Treatment Market: Trends & Demands

Rising demand for affordable and clean drinking water coupled with increasing emphasis to clean industrial water pollutants in groundwater is driving the global nanotechnology in water treatment market. However, high production costs and commercialization of nanomaterial on a large scale are expected to hinder the nanotechnology in water treatment market during the forecast period. Nevertheless, rising research activities in the field of nanotechnology and discovery of low-cost and efficient nanomaterials are likely to fuel the nanotechnology in water treatment market in the next few years. For instance, researchers have recently developed a thin-film, molybdenum disulfide (MoS2) membrane with nanopores for desalination. This membrane filters 25 times higher amount of water than the conventional filter.

Nanotechnology in Water Treatment Market: Regional Outlook

Based on region, the global nanotechnology in water treatment market can be classified into North America, Europe, Asia Pacific, Latin America, and Middle East & Africa. North America held a major share of the global nanotechnology in water treatment market in 2017. Increasing expenditure on R&D in the field of nanomaterial and industrial wastewater treatment is boosting the nanotechnology in water treatment market in North America. The market in Asia Pacific is expected to expand at a significant pace during the forecast period. Increasing government efforts to provide safe drinking water across developing economies such as China, India, Indonesia, and Thailand are expected to fuel the nanotechnology in water treatment market in the region during the forecast period. The market in Latin America and Middle East & Africa is expected to expand at a moderate pace in the next few years. Rising awareness regarding nanotechnology across South Africa and GCC and increasing expenditure by governments and NGOs to provide water free from contaminants are likely to provide lucrative opportunities to manufacturers operating in the nanotechnology in water treatment market in Middle East & Africa in the near future.

Nanotechnology in Water Treatment Market: Key Players

Key players operating in the global nanotechnology in water treatment market include Lanxess Aktiengesellschaft, ItN Nanovation AG, and Enel Spa.

Request For Custom Research At https://www.transparencymarketresearch.com/sample/sample.php?flag=CR&rep_id=60732&source=atm

The report offers a comprehensive evaluation of the market. It does so via in-depth qualitative insights, historical data, and verifiable projections about market size. The projections featured in the report have been derived using proven research methodologies and assumptions. By doing so, the research report serves as a repository of analysis and information for every facet of the market, including but not limited to: Regional markets, technology, types, and applications.

The study is a source of reliable data on: Market segments and sub-segments Market trends and dynamics Supply and demand Market size Current trends/opportunities/challenges Competitive landscape Technological breakthroughs Value chain and stakeholder analysis

The regional analysis covers: North America (U.S. and Canada) Latin America (Mexico, Brazil, Peru, Chile, and others) Western Europe (Germany, U.K., France, Spain, Italy, Nordic countries, Belgium, Netherlands, and Luxembourg) Eastern Europe (Poland and Russia) Asia Pacific (China, India, Japan, ASEAN, Australia, and New Zealand) Middle East and Africa (GCC, Southern Africa, and North Africa)

The report has been compiled through extensive primary research (through interviews, surveys, and observations of seasoned analysts) and secondary research (which entails reputable paid sources, trade journals, and industry body databases). The report also features a complete qualitative and quantitative assessment by analyzing data gathered from industry analysts and market participants across key points in the industrys value chain.

A separate analysis of prevailing trends in the parent market, macro- and micro-economic indicators, and regulations and mandates is included under the purview of the study. By doing so, the report projects the attractiveness of each major segment over the forecast period.

Highlights of the report: A complete backdrop analysis, which includes an assessment of the parent market Important changes in market dynamics Market segmentation up to the second or third level Historical, current, and projected size of the market from the standpoint of both value and volume Reporting and evaluation of recent industry developments Market shares and strategies of key players Emerging niche segments and regional markets An objective assessment of the trajectory of the market Recommendations to companies for strengthening their foothold in the market

Note: Although care has been taken to maintain the highest levels of accuracy in TMRs reports, recent market/vendor-specific changes may take time to reflect in the analysis.

Request for TOC of This Report visit at https://www.transparencymarketresearch.com/sample/sample.php?flag=T&rep_id=60732&source=atm

Read this article:

Nanotechnology in Water Treatment Market Value Chain Analysis and Forecast up to 2027 - BitGmx

Nanotechnology in Dental Implants Market Risk Analysis by 2024 – QbnNews

Posted on September 25, 2019 by Danzig

Global Nanotechnology in Dental Implants Market: Overview

Dental implants have been a part of healthcare industry since a long time, restoring or replacing the defective teeth, which may otherwise lead to infections in gingival tissue. The primary challenge for the dental surgeons has been to achieve osseointegration but now, with the introduction of nanotechnology, several branches of medicine has been revolutionized, including dentistry. In the recent times, nanotechnology has helped in creating nanomaterials that are now used to manufacture next-generation implants. Nanomaterials influence the osteointegration process and remarkably reduce the chances of infection. As per a report by the American Academy of Implant Dentistry, the country-wide market in the U.S. alone is witnessing 500,000 new cases of dental implants per year. Similar surge has been observed across the world and as a result, the global market for nanotechnology in dental implants is expected to expand at a healthy growth rate during the forecast period of 2016 to 2024.

Global Nanotechnology in Dental Implants Market: Trends and Opportunities

Browse more detail information about this report visit at at https://www.transparencymarketresearch.com/nanotechnology-in-dental-implants.html

Global Nanotechnology in Dental Implants Market: Region-wise Outlook

Request For Custom Research At https://www.transparencymarketresearch.com/sample/sample.php?flag=CR&rep_id=2403&source=atm

Geographically, North America and Europe contributes to the most of the demand in the global market for nanotechnology, recovering after a considerable slump due to the economic crisis post 2009-2010. On the other hand, the market is expected for a significant growth in the region of Asia Pacific and South America during the forecast period, due to increasing purchasing power and consumer acceptance of advanced dental technologies.

Companies mentioned in the research report

Some of the key players in the global nanotechnology in dental implants are Nobel Biocare Holdings AG (Switzerland), Nobel Biocare (Switzerland), Dentsply International (U.S.), 3M (U.S.), Danaher Corporation (U.S.), Ivoclar (Liechtenstein), Sirona (U.S.), Heraeus Kulzer (Germany), Biomet/3i (U.S.), and Straumann Holding AG (Switzerland). These leading companies in this market are heavily investing in research and development to develop nanomaterials that are more biocompatible possessing qualities such as adsorption of proteins, higher osseointegration, and adhesion to cells and tissues. Innovative nanotechnology in dental implants is expected to help these companies to consolidate their position in the market.

Major regions analyzed under this research report are: Europe North America Asia Pacific Rest of the World

This report gives you access to decisive data such as: Market growth drivers Factors limiting market growth Current market trends Market structure Market projections for the coming years

Key highlights of this report Overview of key market forces propelling and restraining market growth Up-to-date analyses of market trends and technological improvements Pin-point analyses of market competition dynamics to offer you a competitive edge An analysis of strategies of major competitors An array of graphics and SWOT analysis of major industry segments Detailed analyses of industry trends A well-defined technological growth map with an impact-analysis Offers a clear understanding of the competitive landscape and key product segments

Request for TOC of This Report visit at https://www.transparencymarketresearch.com/sample/sample.php?flag=T&rep_id=2403&source=atm

Original post:

Nanotechnology in Dental Implants Market Risk Analysis by 2024 - QbnNews

Nano drugs exported from Iran to Asia and Europe – Persia Digest

Posted on September 25, 2019 by Danzig

(Persia Digest) Over 300 knowledge-based companies in Iran currently active in producing nano products, including nano drugs, have found good markets in Asia and Europe.

The Head of the Vice-Presidency for the development of strategic technologies in Iran, Esmaeil Ghaderipour, has said: Nanotechnology started up in Iran from the early 2001s in terms of scientific production. Despite a 30 to 40-year delay as compared to other countries, our elite technologists in this filed have reached the peaks of nano technology in the world.

He pointed out the achievements of nanotechonolgy in Iran, saying: Today, we have advanced not only in the field of nanotechnology but also in the production of science, articles, and scientific texts.

Exports of Iranian nano drugs to seven countries

Iranian drugs one step from global markets

Irans program for cooperation in pharmaceuticals

2nd Intl congress on congenital and structural heart disease

He added: Iran ranks first in nanotechnology production in Southwest Asia and North Africa. Overall, it ranks fourth in the world in this area. Today, our export bases in China and South Korea deliver nanotechnology products to Russia and European countries.

Ghaderifar cited employing a skilled and expert manpower as the most important factor for Iran's progress in nanotechnology.

Click here for more SciTech news.

Read the original post:

Nano drugs exported from Iran to Asia and Europe - Persia Digest

UK’s Johnson warns of dystopian digital future, calls on UN to set global standards for emerging technologies – UN News

Posted on September 25, 2019 by Danzig

Mr. Johnson told the United Nations General Assemblys annual general debate that the experience of Brexit was like Zeus eternal punishment of Prometheus.

He said that no one can ignore the gathering force affecting every Member of this Assembly that is digitalization. Addressing the future of privacy, he said that while people may keep their personal secrets from friends, family, their doctors or others, it takes real effort to conceal them from Google.

Citing the comprehensive and pervasive effects of this new technology, pushing humanity towards an antiseptic urban environment, he said in the future and even the present, it places every citizen under surveillance. A future Alexa of connectivity will monitor every aspect of daily human life. With a cloud of data lowering ever more oppressively over the human race, people may have no control over how or when the precipitation will take place.

The Prime Minster described data as the crude oil of the present day, with no one knowing who owns or can use it.

Expressing concern about whether the machines will decide if people are eligible for a mortgage or insurance, he wondered: How do you plead with an algorithm? Digital authoritarianism is not the stuff of dystopian fantasy but an emerging reality in some countries.

While the United Kingdom is a global leader in technology, he noted that some States have been caught unaware by the effects of the Internet, what he called the most momentous invention since print. Like nuclear power, it is capable of both great good and harm, but he wondered whether artificial intelligence will be a boon for humanity or produce pink-eyed terminators here to cull the human race. He cited the deep human impulse to mistrust any technological innovation, noting the influence of anti-vaxxers.

At the same time, he rejected any anti-science pessimism. Highlighting the rise of nanotechnology and neural interface technology, he cited breakthrough developments helping the deaf to hear and the blind to see.

In the developing world, he noted that millions of people in Africa without bank accounts can now use an app to fill that gap. The values that inform tech design will shape the future of humanity, which will either face an Orwellian world of suppression or one of learning, threatening famine and disease but not freedoms, he said.

The mission of the United Kingdom and all who share its values is to ensure that emerging technologies must promote that freedom, openness and pluralism, said Mr. Johnson. On that point, he called on the UN to guarantee that no one is left behind, calling for a common set of global principles to shape the norms and standards of emerging technologies.

The United Kingdom has by far the biggest tech sector anywhere in Europe, with half a million people working in it, he said, and invited Member States to attend a technology summit in London in 2020.

Read the original:

UK's Johnson warns of dystopian digital future, calls on UN to set global standards for emerging technologies - UN News

Select Page ::