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 ...

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 ...

As electronic devices continue to become more compact, flexible, and wearable, materials suppliers are coming under increased pressure to surpass traditional limitations. From foldable displays and ...

Cardiac implantable electronic devices (CIEDs) constitute a major breakthrough in the management of heart rhythm disorders. These devices largely include bradycardia pacemakers, biventricular ...

Electronic devices are deeply woven into daily life, but over the years some have raised health questions—particularly around long-term exposure. While most mainstream medical organizations agree that ...

The global surge in electronic waste (e-waste) poses a critical environmental and health challenge. In fact, according to the UN's recent Global E-Waste Monitor Report, “The world’s generation of ...

A variety of linear models are available to represent common active electronic devices such as transistors and vacuum tubes. Devices operating under large-signal conditions often require nonlinear ...