COVID-19 medical support statement from NovaCentrix
To support the efforts of doctors and research groups exploring antiviral solutions to combat COVID-19, we are offering free samples of our nanosilver powder – either as a stand-alone dry powder format, or in a formulated dispersion. If you are involved in COVID-19 antiviral research, contact us directly for more information, such as material characterization, data sheets, and antiviral testing already performed with this material. Please also be prepared to discuss at a high level the test plan which would benefit from the inclusion of this material. NovaCentrix feels privileged to contribute to this vital effort.
Photonic Curing is the high-temperature thermal processing of a thin film using pulsed light from a flashlamp. When this transient processing is done on a low-temperature substrate such as plastic, paper or glass it is possible to attain a significantly higher temperature than the substrate can ordinarily withstand under an equilibrium heating source such as an oven.
Novacentrix's PulseForge Tools are designed to help you enable new product concepts through new form factors, achieve better device performance, reduce device material costs and increase production throughput and economics. Listed below are just a few of the fields where NovaCentrix products are making an impact.
Internet of Things
Design with novel form factors
Develop new sensor designs
Utilize materials efficiently and economically
Achieve thinner material stacks
Faster OLED switching
Develop narrower bezels
Achieve novel form factors
Add electronic functionality
Utilize for tamper indicators
Improve logistical support and tracking
Build flexible modules
Lower material costs
Explore improved material science for absorbers and coatings
Explore use of new materials and combinations
Design new integrated devices
Add electrical functionality to existing structural parts
Headquartered in Austin, TX, NovaCentrix offers industry leading photonic curing tools, conductive inks, material and expertise enabling development and production of next generation printed electronic devices.