Scientists have studied the interfacial control of transport properties of perovskite oxide ferroelectric tunnel junctions (FTJs) and proposed a new scheme to achieve a giant tunneling electroresistance in FTJs.
A research group developed high-voltage aqueous MXene planar micro-supercapacitors with wide temperature range based on a low-cost, safe, and green water-in-LiCl aqueous electrolyte.
Researchers have obtained NiCoP electrode materials with high specific capacity by doping phosphorus element into nickel-cobalt-based electrode materials.
In a proof-of-concept study, researchers have created self-assembled, protein-based circuits that can perform simple logic functions. The work demonstrates that it is possible to create stable digital circuits that take advantage of an electron's properties at quantum scales.
Organic and perovskite solar cells are very promising energy harvester for indoor Internet-of-Things (IoT) applications as the requirements that solar cells should satisfy to power IoT devices are quite different to the ones usually deemed necessary for application in outdoor-placed solar panels. The size of the single solar cell used in IoT applications is much smaller, and in combination with the lower power input available in low-light indoor settings as well as the emission spectra of ...
Researchers use tiny nanocavities embedded in waveguides to selectively modify short light pulses, which may help lead to ultrafast optical pulse shaping for use in new computers that operate based on light.
An international team of physicists are re-examining the foundations of quantum physics from the perspective of momentum and exploring what happens when the momentum of light is reduced to zero.
