Advanced Materials

Nanofibers for Probing Hazardous Liquids

Clemson University researchers have developed a method of creating nanofibers with the critical materials features of a butterfly proboscis, incorporating the desired aspects to detect and collect potentially hazardous low-volume liquids in a safe manner.

Inventor: Konstantin Kornev

Published: 1/15/2021

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Deeply Subwavelength All-Dielectric Nanophotonics in Silicon

Advanced Materials

Clemson University researchers have invented a technology that increases the energy efficiency of optoelectronic applications by increasing the optical confinement and energy density in the longitudinal and transverse planes.

Inventor: Judson Ryckman

Published: 1/15/2021

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Enhanced Silicon Optical Fiber

Advanced Materials

The Clemson technology is a type of optical fibers that incorporates an oxide glass cladding and crystalline silicon core.

Inventor: John Ballato, Robert Rice

Published: 1/15/2021

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Organic Fluorophores for More Efficient Plastic Scintillators

Advanced Materials

Clemson University researchers have developed a new class of organic pyrozaline-based fluorophores with enhanced emission and luminosity in response to ionizing radiation.

Inventor: Timothy Devol, Valery Bliznyuk, Ayman Seliman, Nadezhda Derevyanko, Alexander Ishchenko

Published: 1/11/2021

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Producing Non-toxic, High Bio-content Non-isocyanate Polyurethanes from Lignin

Advanced Materials

Clemson University inventors have developed a synthesis of polyurethane that replaces the use of toxic compounds.

Inventor: Srikanth Pilla, James Sternberg

Published: 12/4/2020

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