As the world is moving toward more sustainable energy solutions, the emergence of next-generation batteries is a crucial and indispensable milestone. One such next-generation battery is the ...

AZoM talked to Zewen Zhang, who worked in collaboration with Professor Yi Cui to image the solid-electrolyte interphase in lithium batteries. This novel imaging technique could pave the way for ...

The human body is composed of over forty trillion cells. Each of these cells has totally two meters of tightly packaged genomic DNA, the blueprint of life. Recently, there have been many advances in ...

Batteries charge and recharge -- apparently all thanks to a perfect interplay of electrode material and electrolyte. However, for ideal battery function, the solid electrolyte interphase (SEI) plays a ...

This study is led by Prof. Ji Qian and Prof. Renjie Chen (Department of Energy and Environmental Materials, School of Materials Science and Engineering, Beijing Institute of Technology). In this work, ...

Interphase is the period between cell divisions. During this time, chromosomes replicate—each DNA strand unzips into two strands while free-floating bases attach to the unzipped strands. The ...

Geyser-free zone: Zihua Zhu prepares his lithium-ion battery for in situ liquid secondary ion mass spectrometry. (Courtesy:Andrea Starr/Pacific Northwest National Laboratory) What happens in a lithium ...

Next-generation sodium- and potassium-ion batteries offer resource-unconstrained, cost-effective, and sustainable energy storage systems. In a recent review, researchers from Japan redefine the ...