Good electrochemical energy storage (EES) devices such as rechargeable batteries and supercapacitors can store a lot of ...

Lawrence Livermore National Laboratory researchers have developed ultra-thick, 3D-printed interlocking electrodes that overcome the tradeoff between energy storage capacity and power delivery. Using ...

With sustainability becoming a key focus, electric vehicles are becoming popular to reduce the consumption of fossil fuels. In these vehicles, batteries are critical, with shorter charging times and ...

UTEP has joined a project led by NASA to leverage 3D-printing processes with the aim of manufacturing rechargeable batteries using lunar and Martian regolith, which is the top layer of materials that ...

Researchers at Science Tokyo synthesize a borate-water-based electrolyte that enables high-performance, sustainable manufacturing, and easy recycling of lithium-ion batteries. 3D-SLISE is a ...

The rapid increase in demand for electric vehicles has expanded the scope of battery research and quality assurance. 3,4 As batteries are highly structured and multiscale devices, inspecting ...

Lithium-ion batteries are miraculous. They’re strong enough to run a vehicle, and they can be recharged at any outlet. Their commercial debut, in 1991, and popularization over the next two decades, ...