A highly stretchable, transparent, conductive entangled graphene mesh network (EGMN) is developed by a team researchers at Yonsei University, South Korea. The device is mechanically durable, and electrically and thermally stable, even in harsh environmental conditions.
Flexible Bio-Electronics from Water-Processable Graphene Nano-Inks
Flexible graphene nano-inks with an excellent bioactivity pave the way for next generation biomedical applications.
Perfect 2D Ceramic Films from Graphene Precursors
Metallized graphene inks open new directions in film patterning since dense ceramic films with the micro- and macrostructure of a graphene host were produced for the first time in Brown University
Printing Flexible Graphene Supercapacitors
A new printing method produces flexible graphene microsupercapacitors with a planar architecture, suitable for integration in portable electronic devices.
3D Graphene-Oxide Spheres for Supercapacitors
An effective synthesis strategy via a flash-freezing and freeze-dry approach is presented, to synthesis 3D GO structures that exhibit fully accessible hierarchical porous networks for supercapacitor applications.
Graphene Oxide Liquid Crystals
Guest editors Kyung Eun Lee and Sang Ouk Kim present important recent contributions to the field of Graphene Oxide Liquid Crystals and discuss how this research field will develop in the coming years.
Warming Up to Graphene Papers for Personal Thermal Management
Graphene papers provide chemical and mechanical stability, high thermal conductivity and low electrical resistance in the development of personal thermal management systems.
Artificially Stacked Bilayer CVD Graphene Field Effect Transistors
Performance enhancement in individual field effect transistors (FETs) fabricated using artificially stacked graphene double-layers (bilayers).
Graphene-Polymer Hydrogels: A Strong Combination
In their recent review, Liu et.al. report the newest advances in polymer/graphene composite hydrogels.
Graphene Materials can be used to Improve Dental Care
Graphene oxide is effective in combating early-stage formation of biofilms, resulting in dental care advances.