A breakthrough discovery in indium selenide could revolutionize memory storage technology by enabling crystalline-to-glass ...

With the escalating impacts of climate change and depletion of resources, dielectric capacitors are emerging as promising high-demanded candidates for high-performance energy storage devices.

Biodegradable structures have the potential to transform energy, information technology, and advanced medicine. Step aside, ...

Three research groups with expertise in material synthesis, time-resolved experiments, and phase-field simulation worked ...

Ferroelectric materials are characterized by a spontaneous polarization that occurs below the Curie temperature and can be switched using an external electric field. It is well-known that this ...

Artist’s impression of electrically driven amorphisation in In2Se3, a layered semiconducting ferroelectric material. The ...

Thinnest ferroelectric material ever paves the way for new energy-efficient devices Oct 19, 2022 Germanium telluride's hidden properties at the nanoscale revealed ...

Although not as prevalent as Flash memory storage, ferroelectric RAM (FeRAM) offers a range of benefits over the former, mostly in terms of endurance and durability, which makes it popular for a ...

High-dielectric-constant elastomers possess outstanding softness and stretchability. They allow a fast response and have a ...

Low-power 'shock' transforms indium selenide crystal to glass phase, enabling memory storage at billionth of usual energy.

Researchers creates a low-loss and high-dielectric elastomers material for smart wearable electronics.