This Collection supports and amplifies research related to SDG 9 and SDG 12. 3D printing, or additive manufacturing, has emerged as a technology for advancing possibilities in devices for energy ...

Nanoionics is an emerging field that combines the principles of nanoscience and ionic transport to develop advanced materials and devices for energy storage and conversion. It focuses on the study and ...

In a conventional solar cell, the energy of an absorbed photon in excess of the band gap is rapidly lost as heat, and this is one of the main reasons that the theoretical efficiency is limited to ~33% ...

Tsinghua University has launched the first issue of Energy Materials and Devices, a quarterly publication published by Tsinghua University Press. The journal aims to be an international, single-blind, ...

Power devices continue to evolve rapidly as SiC and GaN technologies become more efficient, integrated, and cost-effective. Meanwhile, steady improvements in MOSFET structures and processes enable ...

The field of electrochemical energy storage and conversion is pivotal as the world transitions toward carbon neutrality and sustainable energy solutions.

ukuoka, Japan—Researchers at Kyushu University have designed a class of molecules whose ability to amplify light energy can be actively controlled by simply applying pressure. The findings, published ...