Electric vehicles have come a long way, but let’s be real—they still have their hangups: “range anxiety,” long charging ...

Scientists developed a new model to aid in designing more efficient fusion reactors, a crucial step in harnessing ...

Molecular engineering of a zinc battery co-solvent improves plating stability, suppresses side reactions, and delivers near-perfect efficiency through a single functional group substitution.

The exchange of water and heat between Earth and its atmosphere determines climate zones and ecosystems, which in turn ...

The first IBIS prototype and Ample show that the carmaker knows battery packs will need maintenance and replacement sooner ...

Abstract: Shoot-through is an inherent topology defect of bridge-type inverters. Especially for multilevel inverters, the addition and compensation of dead-time have higher requirements for control ...

High-entropy materials (HEMs) have attracted considerable research attention in battery applications due to exceptional properties such as remarkable structural stability, enhanced ionic conductivity, ...

Instead of keeping the battery inside a reinforced structure, a new prototype system throws the entire pack out of the car at ...

In the area of energy applications, precisely controlling the nanoscale composition, defects, and interfaces in materials has enabled breakthroughs in ...

Iowa State engineers are joining researchers from across the country to develop new tools to simulate electrochemical ...