Microelectronics utilise various functional materials whose properties make them suitable for specific applications.
Coxem is pleased to announce the introduction of the newest member of the EM-30 family of tabletop microscopes, the EM-30N.
Researchers from Skoltech, Aalto University and Massachusetts Institute of Technology have designed a high-performance, low-cost, environmentally friendly, and stretchable supercapacitor that can potentially be used in wearable electronics.
Australian researchers have demonstrated the strong potential for a new type of flexible, recyclable electrodes to be used in creating cheaper solar cells, touchscreens, wearable 'e-skins' and next-generation responsive windows.
We are excited to announce Simpleware Release Q-2020.06, which includes two new modules: “Simpleware AS Cardio” and “Simpleware Design Link”. In addition, the latest version of Simpleware software includes many new features and improvements, including support for importing 4D DICOM.
The idea is as simple as it is ingenious: Mix the unloved liquid manure with corn silage, let bacteria work and use the methane gas produced to generate electricity and heat. Renewable energy sources are inexhaustible. In times of scarce energy resources and climate change, the focus is on new energy sources. Biogas has proven to be a very good alternative in natural energy production.
Researchers of Peter the Great St.Petersburg Polytechnic University (SPbPU) approached the creation of a solid-state thin-film battery for miniature devices and sensors. The results of the study were published in the special issue dedicated to improved materials for lithium and sodium-ion batteries (Energies Journal, MDPI Publishing House).
A team of researchers based in Manchester, the Netherlands, Singapore, Spain, Switzerland and the USA has published a new review on a field of computer device development known as spintronics, which could see graphene used as building block for next-generation electronics.
Although the 2D semiconductor transistors keep the promise for future nanoelectronics, their applications are severely limited by the large contact resistance from the Schottky barrier between the deposited metal electrode and 2D semiconductor interface in the short-channel electronics for scaling integrated circuits.
An international team with ties to UCF has cracked a challenge that could herald a new era of ultra-high-density computing.
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