Sunflower Semiconductor has completed an AI-enabled pilot line for ultra-thin, flexible heterojunction (HJT) solar cells, targeting lightweight power systems for space and near-space applications.

Forward-looking: A new development in flexible thermoelectric film technology could pave the way for a new generation of wearable devices and cooling solutions. Researchers at Queensland University of ...

The mass production of conventional silicon chips relies on a successful business model with large 'semiconductor fabrication plants' or 'foundries'. New research by shows that this 'foundry' model ...

(Nanowerk News) The mass production of conventional silicon chips relies on a successful business model with large ‘semiconductor fabrication plants’ or ‘foundries’. New research by KU Leuven and imec ...

Aluminum-coated polymer satellite insulation gains durability via ultrathin 5-nanometer interlayer, with potential uses in flexible electronics and medical sensors. As its widespread use indicates, ...

Researchers based at Jilin University in China developed a new fabrication process to produce flexible 2D supercapacitors with high conductivity, even when underwater. The work has implications for ...

A research team has developed an ultra-thin, flexible film that could power next-generation wearable devices using body heat, eliminating the need for batteries. A QUT-led research team has developed ...

A research team affiliated with UNIST has introduced a novel, high-performance, and thermally stable polymer-based ...

A research team at POSTECH (Pohang University of Science and Technology) has developed the world's first smartphone-type OLED panel that can freely transform its shape while simultaneously functioning ...

This could spell the end for chunky masks that are like a helmet for your face ...