Explore how antimicrobial nanocoatings are transforming industries like automotive, healthcare and packaging by providing advanced protection against microbes.
Paint and coatings contribute to global health in many unseen ways, like reducing the risk of infection, keeping our food supply chain safer, giving us more time to escape a fire, and eliminating exposure to dangerous materials. Get the details in this installment of our new Innovation Insights column.
Explore the latest developments in powder coating technology, and how these advancements are expanding its applications across various industries. This article delves into the innovative strides within powder coatings, shedding light on new formulations, application techniques, and the burgeoning scope of this versatile finishing method.
The company partnered with researchers at the University of Queensland to develop a polymer coating that is designed to fight the spread of bacteria and viruses.
Several coatings industry trends are powering incredible innovations in manufacturing and materials science, from green coatings to self-cleaning coatings and more.
Anti-microbial chemistries hold much promise for tackling the persistent problem of mold and mildew growth on roofing materials, keeping them cleaner for longer and, consequently, enhancing product longevity and reducing the amount of wastage entering landfill.
Research has shown that a thin cellulose film can inactivate the SARS-CoV-2 virus within minutes, inhibit the growth of bacteria including E.coli, and mitigate contact transfer of pathogens. The coating is invisible to the naked eye, and is abrasion resistant under dry conditions, making it suitable for use on high-traffic objects such as door handles and handrails.
The production of effective, functional, and hygienic medical devices can be aided by the use and advancement of surface coatings that can alter physiochemical properties and functionality, among other features.