A new process for growing forests of manganese dioxide nanorods may lead to the next generation of high-performance capacitors. A new process for growing forests of manganese dioxide nanorods may lead ...

Many improvements in electronic miniaturization and efficiency can be tied to the development of capacitor technology, and minimizing the dielectric layer thickness has been the primary driver for ...

As electronics demand higher energy density, one component has proved challenging to shrink: the capacitor. Making a smaller ...

Scientists have developed a novel process to identify a record-breaking material for film capacitors, which are needed for safe, reliable electric vehicles and are used in many energy technologies.

Great Scott! A team of physicists just figured out how to make a flux capacitor. No, it’s not a real-life version of what was in the “Back to the Future” franchise (reminder: in the movies, the flux ...

In a circuit, capacitors help to steady the flow of electrical current — absorbing surges and providing temporary power when necessary — but their size has been a limiting factor in the development of ...

A new approach to materials engineering promises to overcome the limitation of capacitors commonly used in smartphones, displays and electric vehicles, according to a study published in Nature.… ...

In the race to lighter, safer and more efficient electronics - from electric vehicles to transcontinental energy grids - one component literally holds the power: the polymer capacitor. Seen in such ...

(Nanowerk News) A new process for growing forests of manganese dioxide nanorods may lead to the next generation of high-performance capacitors. As an energy-storage material for batteries and ...