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Duke team creates fully recyclable printed electronics

Researchers at Duke University have created transistors with three carbon-based inks. The all-carbon thin-film transistors were made using crystalline nanocellulose as a dielectric, carbon nanotubes as a semiconductor, graphene as a conductor and paper as a substrate....
KIST researchers develop stretchable graphene-based lithium-ion battery

KIST researchers develop stretchable graphene-based lithium-ion battery

A research team from the Korea Institute of Science and Technology (KIST) recently developed a graphene-based lithium-ion battery that is flexible enough to be stretched.Dr. Jeong Gon Son’s research team at the Photo-Electronic Hybrids Research Center at the...
Stretchable Li-ion battery enhanced with graphene and CNTs to benefit wearable electronics

Stretchable Li-ion battery enhanced with graphene and CNTs to benefit wearable electronics

Scientists in the Korea Institute of Science and Technology (KIST) have worked with graphene and carbon nanotubes to develop a working lithium-ion battery that can be stretched by up to 50% without damage to any of the components. According to the scientists, the...

A new graphene-carbon nanotubes hybrid catalyst could help clean energy revolution

Researchers at Aalto University, collaborating with researchers at CNRS France, have developed a graphene-carbon nanotube catalyst which gives better control over important chemical reactions for producing green technology and clean energy.The oxygen reduction...

First Graphene and Flinders University form a new company to commercialize VFD technology

First Graphene is collaborating with Flinders University to launch 2D Fluidics – a company that will aim to commercialize the Vortex Fluidic Device (VFD). 2D Fluidics is 50% owned by FGR and 50% by Flinders University’s newly named Flinders Institute for...