Beyond their sparkle, diamonds have hidden talents. They shed heat better than any material, tolerate extreme temperatures ...

Power electronics and semiconductor devices lie at the heart of modern energy conversion and control systems. Recent advances have focused on utilising wide‐bandgap materials such as silicon carbide ...

The important materials making transient electronics a reality. The current challenges of transient electronics. How transient electronics could tackle e-waste. Electronics have long been defined by ...

Explore how repairable electronics, modular tech, and growing right to repair laws are reshaping consumer devices, reducing e ...

The level of difficulty in designing electro-technique devices has increased, owing to thermal stress. With the development of electric vehicles and electric aircraft, and to keep up with the recent ...

Issues surrounding recycling of electronic waste. Jabil's efforts to improve electronics sustainability. Details about Retronix's groundbreaking technology for component reuse The global electronics ...

An electromedical device is defined as an electronic device with a part that can be applied directly to the subject or used to transfer energy to or from the patient. Applications include diagnosis, ...

While many consumer devices have lifecycles of 18 months, medical device developers often must deal with lifecycles in excess of a decade. Larry Bell Imagine this nightmare scenario: you have placed a ...

A printed electronic circuit on a clear, flexible substrate draped over a human hair. This flexible transistor device is made entirely of biodegradable materials, including a semiconducting polymer ...