Lithium Host:Advanced architecture components for lithium metal anode

“…In this context, the elaborate regulation of the lithium anode interface is a crucial way to promote the performance of the LMA via homogenizing the composition of SEI, adjusting Li ion diffusion, reducing the concentration gradient and optimizing lithium plating/stripping behavior. 16 These effects from interface regulation could finally build a stable interface between the LMA and electrolyte, thereby inhibiting Li dendrite growth and achieving steady LMAs, which is recognized as a vital factor for improving the cycling stability and safety of lithium metal batteries (LMBs). 17…”

Lithium reduction reaction for interfacial regulation of lithium metal anode

“…In this context, the elaborate regulation of the lithium anode interface is a crucial way to promote the performance of the LMA via homogenizing the composition of SEI, adjusting Li ion diffusion, reducing the concentration gradient and optimizing lithium plating/stripping behavior. 16 These effects from interface regulation could finally build a stable interface between the LMA and electrolyte, thereby inhibiting Li dendrite growth and achieving steady LMAs, which is recognized as a vital factor for improving the cycling stability and safety of lithium metal batteries (LMBs). 17…”

Lithium reduction reaction for interfacial regulation of lithium metal anode

“…The artificial interface, the composition and structure of which are goal-directed designed, has been constructed between the electrolyte and the anode to improve the interfacial stability and alleviate detrimental interfacial reactions ( Guo et al, 2017 ). The structural design and surface engineering of the Cu current collector have also been utilized to improve its lithiophilicity, facilitate homogeneous lithium deposition, and suppress lithium dendrite formation ( Cheng et al, 2021 ). In addition, novel current collector materials instead of Cu foil, such as carbon ( Zhang Y. et al, 2017 ), have been investigated to fabricate low-density, low-cost, and highly-lithiophilic current collectors.…”

Rational Engineering of Anode Current Collector for Dendrite-Free Lithium Deposition: Strategy, Application, and Perspective

“…16–18 Beside these studies, new strategies aim to suppress the dendrite formation through an innovative design of special substrates such as 3D current collectors, hosts and porous Li anode structures. 19–31 3D structures are usually composed of metals, carbon and metal/carbon composites. 32 Metallic 3D frames, because of the intrinsic conductivity and the porous structure, exhibit good capability of restraining dendrites.…”

A surface-nitridized 3D nickel host for lithium metal anodes with long cycling life at a high rate