Lambert Alff and his team from Darmstadt University of Technology (TU Darmstadt) in Germany, along with their collaborators, propose a novel unified model for hafnium-oxide resistive random access memory (RRAM) based on the role of oxygen vacancy defects.
Graphene papers provide chemical and mechanical stability, high thermal conductivity and low electrical resistance in the development of personal thermal management systems.
The design and fabrication of a metallic wood composite possessing highly anisotropic electrical and thermal conductivities.
University of Waterloo researchers develop a bifunctional oxygen electrocatalyst based on graphene that can recharge zinc-air batteries more efficiently.
Of interest to the field of CO2 utilization is the adaptation of the above described energy storage system into one capable of fixing CO2 into a useful product, in this particular case carbon.
The recent progress made in inkjet printed organic transistors for plastic electronics applications is reviewed.
An outline of the recent progress in the syntheses of IMH perovskites is provided.
A new Special Issue entitled “Advances in Chemical Vapor Deposition” is published in Advanced Materials Interfaces in recognition of Professor Michael L. Hitchman
Lab tests show that a novel material based on n organic porphyrin molecule allows batteries to be charged within one single minute.
Highly efficient, red-emissive carbon quantum dots (R-CQDs) with a quantum yield of 53% are prepared and a CQD-phosphors-based warm white-light-emitting diode (WLED) is realized for the first time.
New theory suggests gravity is not a fundamental force
Water-powered gadgets may be on the horizon thanks to new evaporation-based energy device
Micron-sized hidden dimensions could solve two of physics’ deepest puzzles
Turning Periods into Power: Menstrual Blood a Valuable Resource for Medical Diagnostics
Solar panels made of lunar dust could power a future Moon base
Organic materials bring probabilistic computing closer to reality