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What are Self-Sterilizing Polymers?

Image Credit: Kriengsak tarasri/Shutterstock.com
The ability to inactivate pathogens on contact by using inherently biocidal surfaces is at the core of some of the latest strategies for controlling the spread of harmful microorganisms in the healthcare industry, public transportation, and other sectors with a high risk of pathogen transmission via contaminated surfaces.
Today, infectious diseases are the second leading cause of death globally, surpassed only by heart diseases.
Traditionally, the most common strategies to mitigate disease-causing agents spread are based on chemical disinfectants (such as bleach, hydrogen peroxide, and detergents) or repeated exposure to radiation (UV light). However, both approaches can damage the treated surface, adversely affect the environment, or introduce additional health concerns. ....

United States , Cvetelin Vasilev , Richard Spontak , Restorable Antimicrobial Properties , Boston University , Kraton Corporation , Us Environmental Protection Agency , Department Of Chemical Biomolecular Engineering , Boston University National Emerging Infectious Diseases Laboratories , Carolina State University , Phd Mar , Antimicrobial Surfaces , Effective Infection , North Carolina State University , Professor Richard Spontak , Biomolecular Engineering , Biosafety Level , New Class , Antimicrobial Polymers , Protection Agency , Kraton Seeking Approval , Self Sterilizing Sulfonated , Antiviral Functional Materials , Biological Activity , Repetitive Inactivation , Human Coronavirus ,

How to Save Energy and Improve Productivity

Cincinnati Manufacturing Company Wins DOE American Made Challenge Prize. ....

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Grants to support Transmission Limiting Technology

Feb 19 2021 Read 3581 Times
Three Innovate UK grants have been awarded to scientists at the University of Liverpool to develop anti-viral technology that will limit the transmission of SARS-CoV-2 (Covid-19) from touching contaminated surfaces in areas such as hospitals, train stations or restaurants and shops.
Researchers from the University’s Open Innovation Hub for Antimicrobial Surfaces will work alongside local industry and partners targeting three main applications: anti-viral coatings to create reusable face visors and goggles with high optical performance; a transparent anti-viral touch screen coating for ticket machines used widely in public transport and healthcare; and a point-of-sale cleansing system for the retail sector to rapidly disinfect card readers after every use. ....

United Kingdom , Rasmita Raval , Gencoa Ltd , Biaccon Ltd , Liverpool School Of Tropical Medicine , University Open Innovation Hub For Antimicrobial , University Of Liverpool , Northern Rail , Three Innovate United Kingdom , Open Innovation Hub , Antimicrobial Surfaces , Liverpool School , Tropical Medicine , Alder Hey , Co Vid , ஒன்றுபட்டது கிஂக்டம் , லிவர்பூல் பள்ளி ஆஃப் வெப்பமண்டல மருந்து , பல்கலைக்கழகம் திறந்த கண்டுபிடிப்பு மையம் க்கு ஆண்டிமைக்ரோபியல் , பல்கலைக்கழகம் ஆஃப் லிவர்பூல் , வடக்கு ரயில் , மூன்று புதுமை ஒன்றுபட்டது கிஂக்டம் , திறந்த கண்டுபிடிப்பு மையம் , ஆண்டிமைக்ரோபியல் மேற்பரப்புகள் , லிவர்பூல் பள்ளி , வெப்பமண்டல மருந்து , ஆல்டர் ஏய் ,

Tree resin could cure infections caused by MRSA bacteria

Date Time
Tree resin could cure infections caused by MRSA bacteria
Currently, MRSA is one of the fastest evolving bacteria, causing a wide range of infections from skin disease to serious endocarditis. Researchers at the University of Helsinki created a new biopolymer which kills MRSA nearly 100% upon contact, by combining nanocellulose with compounds derived from tree resin, a side stream from forest industry.
Methicillin-resistant S. aureus (MRSA) is any strain of S. aureus that has developed resistance towards the broad-spectrum β-lactam antibiotics such as cloxacillin, methicillin and flucloxacillin. Various sequelae can result from MRSA infection such as chronic wound infection, sepsis or ventilator-associated pneumonia. MRSA is the leading cause of chronic infections associated to the use of indwelling medical devices. ....

Eteläuomen Läi , Jari Yli Kauhaluoma , Miguel Castanho , Ghada Hassan , University Of Helsinki , University Of Lisbon , Antimicrobial Surfaces , Target Resistant Staphylococcus , Professor Jari Yli Kauhaluoma , Medical Devices , Human Health , மிகுவல் காஸ்டன்ஹோ , காடா ஹாசன் , பல்கலைக்கழகம் ஆஃப் ஹெல்சின்கி , பல்கலைக்கழகம் ஆஃப் லிஸ்பன் , ஆண்டிமைக்ரோபியல் மேற்பரப்புகள் , மருத்துவ சாதனங்கள் , மனிதன் ஆரோக்கியம் , நுண்ணுயிர் எதிர்ப்பிகள் ,

University partners with industry to develop new anti-viral technologies to limit spread of COVID-19

Date Time
University partners with industry to develop new anti-viral technologies to limit spread of COVID-19
Scientists at the University of Liverpool, as part of a local consortium, have been awarded three Innovate UK grants to develop new anti-viral technology that will limit the transmission of SARS-CoV-2 (Covid-19) from touching contaminated surfaces in areas such as hospitals, train stations or restaurants and shops.
The consortium involves researchers from the University’s Open Innovation Hub for Antimicrobial Surfaces alongside local industry and partners. It will use Innovate UK funding to create anti-viral surfaces that will mitigate the potential of the virus to spread from surfaces that people come into regular contact with. ....

United Kingdom , Dermot Monaghan , Rasmita Raval , Peter Rutter , Gencoa Ltd , Biaccon Ltd , University Of Glasgow , Liverpool School Of Tropical Medicine , University Open Innovation Hub For Antimicrobial , University Of Liverpool , Northern Rail , Innovate United Kingdom , Open Innovation Hub , Antimicrobial Surfaces , Liverpool School , Tropical Medicine , Alder Hey , United Kingdom Smart Grants , Public Transport , Retail Sector , Supply Chain , Health Care , ஒன்றுபட்டது கிஂக்டம் , டெர்மோட் மோனகன் , பீட்டர் ரட்டர் , பல்கலைக்கழகம் ஆஃப் கிளாஸ்கோ ,