To solve this problem, the team put the nanowire transistors on a flexible polymer, which should enable flexible nanowire applications, such as a roll-up screen. The first step towards a display ...

Nanoscale engineering of the heterojunction materials and structures enables the realization of high-performance, flexible, and transparent LEDs for display and lighting ... Nanoscale heterojunctions, ...

This has led to a host of nanowire photonic devices including photodetectors, chemical and gas sensors, waveguides, LEDs, microcavity lasers, solar cells and nonlinear optical converters.

also called fi-LEDs. The issue with making these flexible LEDs has always been a matter of material, which often causes ...

Dual-band electrochromic devices capable of the spectral-selective modulation of visible (VIS) light and near-infrared (NIR) can notably reduce the energy consumption of buildings and improve the ...

A new dual-band electrochromic window enhances energy efficiency by controlling light and heat, reducing energy use by 20%. It is durable, scalable, and outperforms conventional windows, offering a ...

The types of nanowires can be broadly categorized into the following: Each type of nanowire has its unique set of properties ... Their role in developing high-efficiency solar cells, batteries, LEDs, ...

monolithic white LEDs on novel ternary template, and nanowire power electronics for switching. For UV photonics, the wide bandgap materials have been widely used as the active region. However, the ...