InnovationLab, the expert in printed electronics "from lab to fab", announces it has achieved a breakthrough in additive manufacturing of printed circuit boards (PCBs), helping meet higher environmental standards for electronics production while also reducing costs.
A research partnership between Penn State and the Massachusetts Institute of Technology (MIT) could enable an improved method to make a new type of semiconductor that is a few atoms thin and interacts with light in an unusual way.
Wearable technology, such as virtual reality headsets and fitness and health monitors are part of electronics that are in common use now. But it might be difficult to figure out how to keep these gadgets powered constantly.
Wearable electronics, from health and fitness trackers to virtual reality headsets, are part of our everyday lives. But finding ways to continuously power these devices is a challenge.
With lithium prices over five times higher than they were a year ago, researchers from Skoltech and Lomonosov Moscow State University have developed a material for sodium-ion batteries, which offer an alternative to the increasingly expensive lithium-ion tech.
The industry is profoundly focused on identifying promising next-generation designs and materials for the key components of modern electronics: the tiny electrical on–off switches known as field-effect transistors (FETs).
The battery, devised by Gustav Nyström and his team, is made of at least one cell measuring one centimeter squared and consisting of three inks printed onto a rectangular strip of paper. Salt, in this case simply sodium chloride or table salt, is dispersed throughout the strip of paper and one of its shorter ends has been dipped in wax.
Pulverize rocks, minerals, sand, cement, slag, ceramics, glass, and other brittle to hard samples with the new Spex 8200 Planetary Mill. It features an intuitive touch screen, easy-to-operate jar clamping system, sleek modern design, forced-air cooling, and safety interlock.
The ever increasing demand for the integration of micro/nanosystems, such as MEMS, micro/nanorobots, intelligent portable/wearable microsystems, as well as implantable miniaturized medical devices, has accelerated the development of precise miniaturized energy storage devices (MESDs) and their intense manufacturing processes.
In the age of smart technology, when data is continually created by and transmitted among mobile phones, smart watches, cameras, smart speakers, and other gadgets, digital information is everywhere.
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