The renewable energy industry demands rechargeable batteries that can be manufactured
at low cost using abundant resources while offering high energy density, good safety, wide …

Rechargeable batteries, typically represented by lithium-ion batteries, have taken a huge
leap in energy density over the last two decades. However, they still face material/chemical …

Electrolyte is critical for transporting lithium‐ion (Li+) in lithium‐ion batteries (LIBs). However,
there is no universally applicable principle for designing an optimal electrolyte. In most …

High-performance Li-ion/metal batteries working at a low temperature (ie,<− 20° C) are
desired but hindered by the sluggish kinetics associated with Li+ transport and charge …

The shortage of resources such as lithium and cobalt has promoted the development of
novel battery systems with low cost, abundance, high performance, and efficient …

Low temperatures severely impair the performance of lithium-ion batteries, which demand
powerful electrolytes with wide liquidity ranges, facilitated ion diffusion, and lower …

Alongside the pursuit of high energy density and long service life, the urgent demand for low-
temperature performance remains a long-standing challenge for a wide range of Li-ion …

As one of the most competitive candidates for the next-generation energy storage systems,
the emerging rechargeable zinc metal battery (ZMB) is inevitably influenced by beyond …

Over the past two decades, the solid–electrolyte interphase (SEI) layer that forms on an
electrode's surface has been believed to be pivotal for stabilizing the electrode's …

Electrolytes have recently regained significant attention in rechargeable batteries due to the
discovery that the electrolyte microstructures play a determinant role in battery performance …