Since the theoretical capacity of calcium ion batteries (CIBs) is double that of lithium ion batteries (LIBs), CIBs have garnered more attention as futuristic batteries to substitute LIBs.
“Lithium-rich” cathode, which contains more lithium than the usual cathode, is the new material of interest for developing a better lithium-ion battery. Though this battery has higher energy density, researchers do not have a clear idea about the chemical process involved, particularly about the role of oxygen.
The latest study by UT Dallas physicists may speed up the advancement of more powerful computers and electronics. The researchers are exploring topological insulators, which are materials whose surface electrical properties are opposite to their inside properties.
A range of smart, wearable, wireless electronics, which have varied applications right from fitness monitoring or sun exposure to charging other electronics, playing music or purifying air, have occupied a large portion of the consumer marketplace.
Picosun Oy, the leading supplier of high quality ALD (Atomic Layer Deposition) production solutions, brings to the printed electronics market ALD equipment specifically designed for large area flexible electronics encaps...
Perovskites are a group of compounds that can be made into thin films with many potential optical and electronic properties. In the past few years, these compounds have been a subject of intense research.
Scientists have developed a table-top gadget that can carry out measurements that were only previously possible with huge machines at a few major labs across the globe. The study, which also included a group from The University of Manchester, implies that research into the development of advanced electronic devices using 2D materials can currently be done at any research university.
A scientist from UT Dallas has discovered a new method that could make mobile phones and car batteries last five times longer than the present ones.
imec, a renowned nanoelectronics research center, and IQE, a key player in the design and manufacture of cutting-edge semiconductor wafer products and services, have announced a strategic collaboration on Gallium Nitride-on-Silicon (GaN-on-Si) technology.
“Flat” and “rigid” are terms that are traditionally used to explain electronic devices. However, the rise in demand for wearable and flexible electronics, antennas, biomedical devices, and sensors has led a group of researchers at Harvard’s John A. Paulson School of Engineering and Applied Sciences (SEAS) and Wyss Institute for Biologically Inspired Engineering to invent a novel way of printing intricate metallic architectures – as if they are suspended in midair.
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