A simple method to create elastic and conductive Janus membranes with exceptional adhesion for advanced flexible multifunctional electronics has been put forth by scientists at the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences, led by Prof. Tao Chen.
Copper currently reigns supreme in the realm of energy. With recent research from the Pacific Northwest National Laboratory (PNNL) offering a formula to boost aluminum’s conductivity and making it economically competitive with copper, it might change.
Wearable technology has exploded in recent years. Spurred by advances in flexible sensors, transistors, energy storage, and harvesting devices, wearables encompass miniaturized electronic devices worn directly on the human skin for sensing a range of biophysical and biochemical signals or, as with smart watches, for providing convenient human-machine interfaces.
In an article recently published in the journal ACS Applied Energy Materials, researchers discussed the utility of a neural network to automatically capture key features for solid-state electrolyte superionic conductivity prediction.
The EU-funded macQsimal project, coordinated by CSEM as part of the EU’s FET Flagship on Quantum Technologies program, has now drawn to a close, after leading to some promising discoveries. For instance, engineers developed a new kind of miniature atomic watch that will soon hit the market.
For over two decades, Professor Karl Leo has been giving a thought to the realization of this component and currently, it has turned out to be a reality: At the Institute for Applied Physics at the TU Dresden, his research team has provided the first highly effective organic bipolar transistor.
The silicon-based computer chips that power our modern devices require vast amounts of energy to operate. Despite ever-improving computing efficiency, information technology is projected to consume around 25% of all primary energy produced by 2030.
At Osaka University, a new technique has been illustrated by the scientists for making three-dimensional integrated circuit connections that function at low temperatures and does not need external pressure.
A promising solution has been held by the lithium–sulfur batteries as next-generation energy storage devices due to their ultrahigh theoretical energy density.
3D-Micromac AG, the industry leader in laser micromachining and roll-to-roll laser systems for the semiconductor, photovoltaic (PV), medical device and electronics markets, today announced that it has received a multi-system order for its microCELL™ MCS high-throughput laser cutting solution to support Enel Green Power’s TANGO 3-Gigawatt (GW) solar plant expansion project at its 3Sun Gigafactory in Catania, Sicily – set to become Europe’s largest factory producing high-performance bifacial PV modules.
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