Category Archives: Biochemistry

Immunomic Therapeutics’ CEO to present at the BIO CEO & Investor Digital Conference – Business Wire

ROCKVILLE, Md.--(BUSINESS WIRE)--Immunomic Therapeutics, Inc. (ITI), a privately held, Maryland-based biotechnology company, announced today that the company will present at the BIO CEO & Investor Digital Conference, February 16-18, 2021. Chief Executive Officer at ITI, Dr. Bill Hearl, will present a talk titled, ITI-1000-A Novel Immunotherapy for GBM. Dr. Hearl will discuss ITIs investigational UNiversal Intracellular Targeted Expression (UNITE) platform and its application in immuno-oncology, specifically glioblastoma multiforme (GBM). ITIs technology platform has the potential to utilize the bodys natural biochemistry to develop a broad immune response and is currently being employed in a Phase II clinical trial as a cancer immunotherapy.

Presentation details are as follows:

Who: William Hearl, Ph.D., Founder and CEO of Immunomic Therapeutics

What: ITI-1000--A Novel Immunotherapy for GBM

Where: Immunomic Therapeutics, Inc. - BIO CEO & Investor Digital Conference | BIO

About UNITE

ITIs investigational UNITE platform, or UNiversal Intracellular Targeted Expression, works by fusing target antigens with the Lysosomal Associated Membrane Protein, an endogenous protein in humans, for immune processing. In this way, ITIs vaccines (DNA or RNA) have the potential to utilize the bodys natural biochemistry to develop a broad immune response including antibody production, cytokine release and critical immunological memory. This approach could put UNITE technology at the crossroads of immunotherapies in a number of illnesses, including cancer, allergy and infectious diseases. UNITE is currently being employed in Phase II clinical trials as a cancer immunotherapy. ITI is also collaborating with academic centers and biotechnology companies to study the use of UNITE in cancer types of high mortality, including cases where there are limited treatment options like glioblastoma and acute myeloid leukemia. ITI believes that these early clinical studies may provide a proof of concept for UNITE therapy in cancer, and if successful, set the stage for future studies, including combinations in these tumor types and others. Preclinical data is currently being developed to explore whether LAMP nucleic acid constructs may amplify and activate the immune response in highly immunogenic tumor types and be used to create immune responses to tumor types that otherwise do not provoke an immune response.

About Immunomic Therapeutics, Inc.

Immunomic Therapeutics, Inc. (ITI) is a privately-held, clinical stage biotechnology company pioneering the development of vaccines through its investigational proprietary technology platform, UNiversal Intracellular Targeted Expression (UNITE), which is designed to utilize the bodys natural biochemistry to develop vaccines that have the potential to generate broad immune responses. The UNITE platform has a robust history of applications in various therapeutic areas, including infectious diseases, oncology, allergy and autoimmune diseases. ITI is primarily focused on applying the UNITE platform to oncology, where it could potentially have broad applications, including targeting viral antigens, cancer antigens, neoantigens and producing antigen-derived antibodies as biologics. In early 2020, an investment of over $78M by HLB Co., LTD, a global pharmaceutical company, enabled ITI to accelerate application of its immuno-oncology platform, in particular to glioblastoma multiforme, and rapidly advance other key candidates in the pipeline, including the most recent initiative into infectious diseases with development of its vaccine candidate for COVID-19. The Company has built a large pipeline from UNITE with four oncology programs, multiple animal health programs and a SARS-CoV-2 program to prevent and treat COVID-19. ITI has entered into a significant allergy partnership with Astellas Pharma and has formed several academic collaborations with leading Immuno-oncology researchers at Duke University and the University of Florida. ITI maintains its headquarters in Rockville, Maryland. For more information, please visit http://www.immunomix.com.

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Immunomic Therapeutics' CEO to present at the BIO CEO & Investor Digital Conference - Business Wire

Should people who have had Covid-19 be at the back of the vaccine queue? – The Week (UK)

Matt Webster, principal lecturer in biochemistry at Anglia Ruskin University, onwhether natural antibodies reduce the need for a quick jab

A recent report from Public Health England showed that 83% of people who had had Covidwere protected from reinfection five months later. Given that 3.7 million people in the UK have had Covid, should those with antibodies be at the back of the vaccine queue?

With the current high death rate, rising case numbers, closed schools and a seemingly interminable lockdown, it is natural to look for ways to speed up the vaccination rollout. Surely those who have already had Covid and recovered can be deprioritised so that people shielding at home can receive the vaccine sooner?

Certainly, the government is not afraid of hacking the process to increase short-term vaccine coverage. The recent example of lengthening the wait for a second dose proves that. But how feasible and effective would it be to not vaccinate people who have had the virus?

First, how sure are we that those people recovered remain protected five months later? While there is no doubt that the antibodies that helped you recover from Covid will last for some time after your illness, hopefully reducing the chance of reinfection, this study was on recovered healthcare professionals, looking at whether they went on to catch Covid again.

Despite the rising case number, a lot improved in those five months, particularly in the availability of protective equipment for healthcare workers and the isolation of Covid patients in hospital. This complicates checking healthcare workers antibody-derived protection rates and the calculation for how long you may remain protected.

But cant we just check the antibodies at the test centres, sending those home that dont need their immune system trained in Covid-focused jiu-jitsu? We can definitely test for antibodies. The test has been available with a few stop-starts for some time, but critically it relies on a blood test.

Englands test-and-trace programme, which has struggled to process swab tests on the scale needed to match case numbers, would surely collapse at the request to process antibody tests for the entire UK population. Shipping, extraction, processing, testing...all while poor Mrs Jones sits in a school hall with a nurse poised with a vaccine jab waiting for the green light.

How about using the test-and-trace data to sort those that need the jab from those that dont?

While I will overlook that use of dont (antibodies are not everlasting, even if you have had Covid) the real question here is how much do you trust the accuracy of test and trace, and of peoples ability to self-declare accurately? At the start of the pandemic everyone I spoke with had had that Covid despite being untested and unable to identify any exposure other than I went on a train.

This improved with mass swab-testing, but accuracy, particularly false positives, would be an issue if used to exclude vulnerable people from the vaccine queue.

Like many things related to this pandemic, a good idea is complicated by the detail.

Vaccine deployment could be targeted more precisely if we knew how long each of us retained antibodies and had an instant test capable of estimating how much and for how long we would be protected. Given that we have neither - and the NHS is under immense pressure already -the approach of vaccinating in demographic groups currently appears to be our only option.

Matt Webster, principal lecturer in biochemistry atAnglia Ruskin University.

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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Should people who have had Covid-19 be at the back of the vaccine queue? - The Week (UK)

Biochemistry Analyzer Consumption Market Report By Application, Type, Top Companies, Growth, Regional Outlook, and Forecast to 2027 Murphy’s Hockey…

New Jersey, United States,- Biochemistry Analyzer Consumption Market Report, published by Market Research Intellect, provides an industry assessment of the Biochemistry Analyzer Consumption market covering the most important factors driving the growth of the Biochemistry Analyzer Consumption industry. Biochemistry Analyzer Consumptions latest market research report contains an extensive analysis of micro and macroeconomic indicators affecting the development of the global market in the forecast period 2020-2027.

The current trends of the Biochemistry Analyzer Consumption market, combined with broad growth opportunities, key drivers, constraints, challenges and other important aspects, are detailed in the Biochemistry Analyzer Consumption market report. Additionally, the report makes many development prospects for key players involved in the Biochemistry Analyzer Consumption industry taking into account various market dynamics.

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The latest report is the most recent study providing a 360-degree coverage of the Biochemistry Analyzer Consumption industry facing the negative economic impacts of the COVID-19 outbreak from earlier this year.

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The Biochemistry Analyzer Consumption market has been broadly segmented to allow readers a deeper understanding of the different aspects and attributes of the market. The market size of new entrants and existing companies was assessed using a variety of analytical tools including SWOT analysis, investment assessment, and Porters Five Forces Analysis. Additionally, as part of the study, report authors assessed the financial position of leading companies operating in the industry. They provided important insights into gross profit margin, revenue sharing, sales volume, operating costs, individual growth rates, and many other financial metrics of these competitors.

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Biochemistry Analyzer Consumption Market Report By Application, Type, Top Companies, Growth, Regional Outlook, and Forecast to 2027 Murphy's Hockey...

UTEP Fights Superbugs with $1.2 Million NIH Grant to Develop a New Way to Produce Antibiotics – Newswise

Newswise EL PASO, Texas Chu-Young Kim, Ph.D., associate professor of chemistry and biochemistry at The University of Texas at El Paso, is helping combat the threat of superbugs illnesses caused by drug-resistant bacteria by returning to nature.

His work is supported by a $1.2 million grant from the National Institutes of Health (NIH) to develop a biological method for producing new versions of current antibiotics that have become ineffective due to resistance.

Superbugs are a major problem threatening the lives and health of people worldwide. A 2019 report by the Centers for Disease Control and Prevention states that more than 2.8 million antibiotic-resistant infections occur in the United States each year, and more than 35,000 people die as a result.

Kim said that the development of new antibiotics is essential since many are rapidly becoming less useful due to resistance. Rather than attempt to create entirely new compounds, Kim and his research team are taking drugs that already exist and modifying their chemical structure so that they retain the antibacterial activity but overcome resistance.

Antibiotic drug resistance represents a real health threat, said Robert Kirken, Ph.D., dean of the College of Science. Over the past several decades we have seen little drug development in this area until recently. The work by Dr. Kim will help us stay one step ahead of these infections that kill tens of thousands of Americans each year.

Traditionally, scientists modify drug molecules using chemical methods. Penicillin is one example of a drug that has seen enhanced versions developed throughout the years. However, Kim said that most antibiotics have structures that are more complex than penicillin. Thus, using chemicals to prepare new versions of these drugs would take years and the yield would be very low, making it impractical from a commercial standpoint and unaffordable for patients.

What we are doing is, instead of chemically modifying the drug molecules as it is traditionally done, were going back to the original microorganisms that synthesize these antibiotics in the first place, Kim said. For example, penicillin is produced by a fungus and echinomycin is derived from a soil bacterium. The research team will study how nature generates these complex molecules.

Our ultimate goal is to use that knowledge to engineer microorganisms by mutating their DNA so that they produce a modified antibiotic that is effective against superbugs, Kim said. By doing it this way, we can produce very large quantities of the drug via fermentation and provide it to patients at an affordable price.

Kim and his research team of undergraduate and graduate students will focus their efforts on studying how bacteria produce a natural product antibiotic called lasalocid. This drug requires nine enzymes proteins that perform chemical transformations to work together for bacteria to synthesize the antibiotic.

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UTEP Fights Superbugs with $1.2 Million NIH Grant to Develop a New Way to Produce Antibiotics - Newswise

Africa’s Hit Science Show For Kids Is Coming To The U.S. – NPR

Lorraine Ololia is 10. She lives in Kampala, Uganda. And she recently came up with a new career goal.

A TV show about science, produced by teachers from her junior high school, has inspired her. She's watched an episode on computer programming, another where two young explorers visit her country's Lake Victoria to talk about wetlands and learned how to make a model of a digestive tract at home using bowls, crackers, water, food coloring, bananas and oranges.

She's even appeared on the show, making and launching a rocket with her friend Samantha.

And now she wants to pursue a career in science.

"It's boys who do all the fun stuff and sometimes a girl like me gets a little left out," she says. "But girls can be scientists and go to the moon."

The show is called N*Gen (pronounced "engine), or Next Generation Television.

N*Gen first aired on Ugandan TV in September and since then, the show, which features a dozen 35-minute episodes, has been picked up by TV networks in more than half a dozen African countries.

On Feb. 6, it will debut in North America and the Caribbean on The Africa Channel, airing every Saturday and Sunday at 6 a.m. and 9 a.m. ET.

N*Gen is the brainchild of six teachers from Clarke Junior School in Kampala and East African nonprofit Peripheral Vision International, which funds and produces it.

"Choosing a science focus for N*Gen is an absolute necessity because not only is it a neglected area, it is considered one of the hard subjects [for many students]," says Joy Kiano, a teacher who has a Ph.D. in both biochemistry and molecular biology and is a consultant with Peripheral Vision International.

The show, targeting children ages 8 to 12, looks at science through an African lens. Weekly episodes are filmed in a studio in Kampala and sometimes on location (visiting a chocolate factory for an episode about food, for example).

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Kiano says it was important to feature African women in science. Some male teachers appear but guest scientists are mainly female. And the two main presenters, Irene Nyangoma Mugadu and Annah Komushana, are women as well: Ugandan teachers from Clarke Junior School in Kampala.

"Society expects little from girls and women," says Mugadu. "Girls need to be empowered to reach their full potential academically and explore disciplines that are mainly pursued by boys."

A team of teachers and producers in Uganda as well as Nigeria and Kenya where some segments are also filmed brainstorm ideas for episodes. For many of them, it was their first time working in TV.

The goal is to "tackle topics which are all around us" but may be unfamiliar to the audience, says Komushana. "It has also given them a chance to explore and carry out different experiments."

Episode subjects range from astrophysics to biology to the natural sciences. Presenters give short lessons on topics such as bees, robots, sounds, water and paleontology. They conduct science experiments how to make a model of an X-ray of their hand using paper and flour, for example. The instructions: Sprinkle flour over the hand on a black piece of paper to create an outline, then place 27 sticks on the paper to represent the 27 bones in the hand.

For a segment called "The Africa Teacher Challenge," teachers send in video clips of their science lessons. In one, a teacher from Tanzania gives a lesson on eating insects as a delicacy across Africa. "You may think it's strange to eat worms, but worms and insects in general are a staple for many people and they are very nutritious," says Seam Rampling Ongala from Dar es Salaam. "They contain more protein than meat and a rich source of minerals such as iron and calcium."

Educators have praised the show for prominently featuring women. Christine Kathurima, principal of Nova Pioneer Schools, an independent school network spanning preschool to secondary grades in Kenya and South Africa, describes N*Gen as "absolutely ground-breaking in the quality and the African female presenters." She is not affiliated with the show.

"I absolutely love seeing women presenters," she adds. "When I watched the show I realized that many of the educational videos that we use do not intentionally seek female hosts. Kids' singing shows and storytelling shows have a good amount of representation across the board, however when it comes to science this is a first for me."

The show's focus on African perspectives, locations and scientific discoveries has also impressed broadcasters, who say it's unlike any other science show that's appeared on African TV.

"Most often we broadcast foreign content from Western countries. However, we hope more African productions will be made for African broadcasters," says Kalumbu Lumpa, a content acquisition manager from Zambian TV network ZNBC.

Jeff Schon, CEO and co-founder of Akili Kids!, a children's learning channel based in Kenya, said the network had been screening programs such as U.S. program SciGirls, which showcases STEM-related content.

"[It is] a lovely program, but it's certainly not shot here," he says. "It is in some cases dealing with subjects that are not going to resonate here." SciGirls, he says, had a segment on shoes designed for safely walking on Minnesota's icy winter streets, for example.

N*Gen, on the other hand, puts the spotlight on Africa. "I enjoyed a recent episode we broadcast, titled 'Bones,' that had a segment on [the fossil] Turkana Boy whose bones are housed at the Kenya National Museum," he says. "The segment featured a paleontologist from the museum and the program did a great job of presenting him as a role model and inspiration for future generations of scientists."

Schon is proud to share that in Kenya, where it's been broadcast twice on weekends since Oct. 10, each episode is watched on average by 658,000 children under 14 and 642,000 adults.

The cast and producers began scripting a second N*Gen series in January with a focus on climate change-related issues. And they plan to keep filming even if the pandemic keeps kids out of the classroom.

Freelance journalist Amy Fallon has reported from Africa, Asia, Australia and the United Kingdom. She is on Twitter @amyfallon

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Africa's Hit Science Show For Kids Is Coming To The U.S. - NPR

Biochemistry researcher receives National Science Foundation Award – Newswise

Newswise OMAHA, Neb. (Jan. 27, 2021) Creighton University biochemistry researcher and assistant professor Lynne Dieckman, PhD, has been awarded a grant from the U.S. National Science Foundation.

The five-year, $680,500 NSF Faculty Early Career Development Program (CAREER) award will be utilized to gain a better understanding of how improper DNA replication and compaction can cause changes in gene expression in offspring, which can play a role in the onset of diseases such as cancer, cell death or developmental issues. In addition, a major goal of the project is to create a comprehensive learning environment for aspiring high school-aged and undergraduate scientists who will have significant roles in the research.

The program offers the foundations most prestigious awards to support early-career faculty who have the potential to serve as academic role models in research and education. Dieckman, an assistant professor with the Department of Chemistry in Creightons College of Arts and Sciences, is the first Creighton faculty member to receive the highly competitive NSF CAREER award.

Words cannot fully capture how proud we are of Dr. Dieckmans tremendous achievement. The CAREER award recognizes her future promise in science, as well as all her accomplishments, David Dobberpuhl, PhD, chair of the Department of Chemistry said. She often spends many long hours in the laboratory and mentors several research students each semester. She is a model scholar and teacher who is deserving of this recognition.

Dieckman and her team of student researchers will use program funding to examine protein interactions in DNA replication and the subsequent packaging of DNA into the nucleus of cells.

Maintaining proper gene expression relies on several important proteins that function together to compact DNA into active or inactive genes, said Dieckman. Just like people, we can learn a lot about how proteins work if we know what they look like physically and what kind of interactions they make throughout the day. My research aims to understand the function and three-dimensional structure of proteins involved in DNA replication and compaction and how they work together to maintain inactive regions of the genome.

The two main proteins Dieckmans research focuses on are called proliferating cell nuclear antigen (PCNA) and chromatin assembly factor 1 (CAF-1). If these two proteins do not interact with each other in the cell, then certain genes get turned on when they should be off. This can result in genomic instability that can lead to certain diseases.

My team of student researchers will dissect these proteins to determine how PCNA and CAF-1 interact. This will help us understand how DNA is compacted to maintain gene expression and genomic stability. The completion of these studies will lead to a greater understanding of the link between DNA replication and nucleosome assembly and how disruptions in this regulation lead to aberrant gene expression, Dieckman said.

Another major goal of Dieckmans research is to build a firm foundation for a lifetime of leadership in integrating education and research. Creighton students will be heavily involved in performing all experimentation throughout the calendar year, as the NSF grant will cover stipends for three undergraduate students each summer.

In addition, six students from local high schools will participate in research projects every summer in a collaboration with the Haddix STEM Corridor program. Students in the program will attend weekly scientific development workshops on campus and present research results to other scientists and the public.

These activities are intended to inspire young students interest in science and prepare them for successful future careers in STEM, Dieckman said.

NSFs goal is to propel the nation forward by advancing fundamental research in all fields of science and engineering. The foundation supports research and people by providing facilities, instruments and funding to support their ingenuity and sustain the U.S. as a global leader in research and innovation. In 2021, NSF funds will reach all 50 states through grants to nearly 2,000 colleges, universities and institutions. Each year, NSF receives more than 40,000 competitive proposals and makes about 11,000 new awards.

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Biochemistry researcher receives National Science Foundation Award - Newswise

Biochemistry Among the Stars – Physics

The model involves asymmetries in the way certain particles interact with biomolecules at the nuclear level. It works through selective destruction: If there are initially equal numbers of left- and right-handed molecules and one kind is destroyed preferentially, then theres an imbalance.

My colleagues and I realized that a nucleus within an amino acid could be destroyed in a spin-polarized way via the weak force, a parity-violating interaction. To explore this idea, we looked first at destructive interactions involving spin-polarized leptonsspecifically neutrinos, which are inherently chiraland nitrogen atoms in amino acids. The destructive mechanism we explored is inverse beta decay. In that decay, the nitrogen atom becomes carbon-14 or oxygen-14, a process that destroys the whole amino acid. Theres also a nuclear recoil, which can literally rip the molecule apart.

But this process is only chirality selective if the amino-acid molecules all align with each other. If that happens, only amino acids of one chirality will be pointing in a direction that allows their nitrogen atoms to interact with the neutrinos. This alignment could happen through crystallization, where the molecules all line up naturally, or it could happen in an electric field, for example.

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Biochemistry Among the Stars - Physics

Automated Biochemistry Analyzers Market 2020 | How The Industry Will Witness Substantial Growth In The Upcoming Years | Exclusive Report By…

UpMarketResearch publishes a detailed report on Automated Biochemistry Analyzers market providing a complete information on the current market situation and offering robust insights about the potential size, volume, and dynamics of the market during the forecast period, 2020-2027. This report offers an in-depth analysis that includes the latest information including the current COVID-19 impact on the market and future assessment of the impact on Automated Biochemistry Analyzers Market. The report contains XX pages, which will assist clients to make informed decision about their business investment plans and strategies for the market. As per the report by UpMarketResearch, the global Automated Biochemistry Analyzers market is projected to reach a value of USDXX by the end of 2027 and grow at a CAGR of XX% during the forecast period.

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The report, published by UpMarketResearch, is the most reliable information as the study relies on a concrete research methodology focusing on both primary as well as secondary sources. The report is prepared by relying on primary source including interviews of the company executives & representatives and accessing official documents, websites, and press release of the private and public companies.

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Stationary Biochemistry AnalyzersPortable Biochemistry Analyzers

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Automated Biochemistry Analyzers Market 2020 | How The Industry Will Witness Substantial Growth In The Upcoming Years | Exclusive Report By...

Chitosan Market Is Expected To Register A Healthy CAGR Of 14.8% In The Forecast Period Of 2019-2026 | Major Giants Panvo Organics Pvt Ltd, Qingdao…

International Chitosan Market report is structured with the meticulous efforts of an innovative, enthusiastic, knowledgeable and experienced team of analysts, researchers, industry experts, and forecasters. Market-related variables incorporated in this business report such as current market trends, market division, new market section, industry anticipating, future bearings, opportunity analysis, key examination and arranging, target market, experiences and advancement in technology help the organization to grow and expand in the current market scenario. For clear and better understanding of facts and figures, the data is represented in the form of graphs and charts in this Chitosan report.

Chitosan Market document takes care of every opportunity, challenges, drivers, market structures, and competitive scene for the customers. Two of the major tools of market analysis used here are SWOT analysis and Porters Five Forces Analysis. The report exhibits significant item advancements and tracks ongoing acquisitions, mergers and research in the Chitosan business by the key market players. In addition, it combines comprehensive market analysis with specific estimates and predictions to give total research solution, most prominent clearness for key basic choices. Chitosan Market analysis report also offers an in-depth overview of product specification, technology, product type and production analysis considering major factors such as revenue, cost, and gross margin.

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The market would gain significant growth rate during the forecast period of 2019 to 2026 reaching a substantial market size by 2026. The market has been analyzed taking into considerations the different factors which includes the market drivers, restraints, opportunities, key competitor landscape, trend analysis, outlook, estimate and forecast factors.

Global chitosan market is expected to register a healthy CAGR of 14.8% in the forecast period of 2019-2026. The rise in the market value can be attributed to the growing awareness about health globally, unique properties of chitosan and availability of abundant raw material. The report contains data of the base year 2018 and historic year 2017.

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Major Key Players of the Chitosan Market

Panvo Organics Pvt Ltd, Qingdao Yunzhou Biochemistry co., ltd., , Advanced Biopolymers AS, meron, Heppe Medical Chitosan GmbH, Kitozyme, LLC, Kraeber & Co. GmbH, Foodchem International Corporation, FMC Corporation, Golden-Shell Pharmaceutical, Primex EHF, Nano3Bio, KOYO CHEMICAL CO.,LTD., Dainichiseika Color & Chemicals Mfg. Co., Ltd., Biothera Pharmaceuticals among others.

Market Scope, Segments and Forecast of the Chitosan Market

The Chitosan Market is witnessing high demand due to the rise in demand of the product across different end-use areas. On the basis of product, geography and application the market is bi-furcated into different sub-segments as per the feasibility check and market estimation from 2019 to 2026 have been provided for these segments.

Market Overview, Key Trends Market Dynamics

The market would gain significant growth rate during the forecast period, reaching a substantial market size by 2019. The market has been analyzed taking into considerations the different factors which includes the market drivers, restraints, opportunities, key competitor landscape, trend analysis, outlook, estimate and forecast factors. The impact of COVID -19 could be seen on the market; however, the Chitosan Market would recover from this pandemic by end of the next year. We have also mentioned the key trends of the market that would impact the growth of the market at present and in the coming years as well.

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Geographical Coverage of Chitosan Market

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Chitosan Market Is Expected To Register A Healthy CAGR Of 14.8% In The Forecast Period Of 2019-2026 | Major Giants Panvo Organics Pvt Ltd, Qingdao...

MSU researchers team up with Army Research, national labs to develop ‘stronger’ batteries – KTVQ Billings News

Whether it is for laptops and electric cars or technology used by soldiers heading towards conflict, more and more, we are finding ourselves relying on batteries.

But they only last so long.

We all use batteries, including lithium-ion batteries, more than we think we do these days - with all of the portable electronics out there.

Reporters, who are included in that broad category, use them for their cameras.

Its usually inconvenient when batteries decide to die.

MTN NEWS PHOTO

So the research study at MSU is looking to fix that.

Ive had my job for 25 years, says Rob Walker, chemistry and biochemistry professor at MSU. Ive got the greatest job in the world.

To Walker, who is also the director of Montanas statewide Material Science Program, its a project thats end goal could change the power-storage game for many, namely batteries.

It leverages decades, collectively decades of experience studying energy conversion processes, formerly in fuel cells, and now applying them to new and emerging technologies, Walker says. The ultimate goal is to take discoveries here at Montana State and use that to guide fabrication and development of these next-generation batteries.

Its all a part of a $10 million effort, nationwide, including labs and universities across the country.

$3.5 million of that, from the Army Research Lab, came to MSU.

We are making discoveries that no one has ever made before, Walker says. We are discovering new materials. We are learning new chemistries. That sense of discovery cant be beat. These batteries have very high power densities and need to be able to operate in a whole host of conditions, including very cold and very hot.

Lee Spangler, director of the Energy Research Institute at MSU, says that includes helping soldiers, who, on average, carry 10 pounds of batteries at a time and dont have many options to charge them on the move.

Not to mention, if damaged, lithium-ion batteries can catch fire.

Were doing everything from the material science that actually changes the materials that batteries are made out of, clear up to how they operate in circuits, Spangler says. A lot of centers dont do that full vertical immigration of the technology.

A soldier can grab a battery off of the shelf, slap it into their electronics and go out into the field and not have to worry, is it going to work? Walker says. Is it going to function? Will it function long enough and is it safe?

Walker adds all of these improvements are important, in a world less and less plugged into walls.

The capabilities, the expertise is second to none and it is what you will find at any internationally recognized center of excellence, Walker says. Its here. That sense of discovery also fits into and helps drive this larger program with greater vision and scope with real deliverables at the end is really indescribable.

Part of that $3 million contract will support 11 grad students and six postdoctoral positions, all working together.

This is a terrific opportunity for students but it is also a chance to build on years of work weve done on fuel cells and apply that to next-generation batteries, Spangler says.

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MSU researchers team up with Army Research, national labs to develop 'stronger' batteries - KTVQ Billings News