Materials for bioelectronics must often compromise between mechanical and electrical properties. In a talk at the ACS Fall 2022 meeting, Stanford University chemical engineer Zhenan Bao described her ...

Materials scientists have improved electrical conductivity in a polymer electrode for E-skin applications. Their approach is simple and cheap, but further enhancements are needed for the polymer to ...

In a new publication from Opto-Electronic Advances; DOI 10.29026/oea.2021.200101 , the research groups of Professor Xuan-Ming Duan from Jinan University Guangzhou, China and Professor Mei-Ling Zheng ...

A team of Japan-based scientists have set a new power conversion efficiency record for all-organic solar cells, more than doubling the previous record. They say the cell was developed with rganic ...

Current electrodes are believed to have low electrical, thermal and ionic conductivity, and poor mechanical behavior when discharged and recharged. This leads to early delamination and degradation.

A simple spin-coating process replaces an insulating layer with a conductive one, improving durability and efficiency in flexible electronics. Study: Improving the Conductivity and Stability of Silver ...

A glucose-powered biofuel cell that uses electrodes made from cotton fiber could someday help power implantable medical devices such as pacemakers and sensors. The new fuel cell, which provides twice ...