Tuning wettability of gallium-based liquid metal anode for lithium-ion battery via a metal mixing strategy

Abstract: Exploring highly stable alloy-type anodes for rechargeable lithium batteries is urgent with the ever-increasing demands for high energy density batteries. The liquid metal (LM)-based anodes demonstrate great potential in advanced lithium-ion batteries due to their high energy densities and self-healing performance. However, its high surface tension leads to poor wettability towards the current collector and higher interfacial contact resistance. In this study, we developed a new free-standing LM-based anode LM… Show more

“…To promote the wettability of LM on the current collector, the metallic particles with high melting points, such as Ru and W have been introduced, and the LM composite is anchored on the substrates firmly. 25,26 All of these above results inspired us to develop an LM@MXene composite anode to boost their cycling and rate performance, especially toward wide temperature applications. Herein, we propose a design of a V 2 CT x @GaInSn composite by confining liquid GaInSn within layered porous V 2 CT x and investigating it as an anode for LIBs.…”

“…The self-healing performance of the LM modification layer contributes to the improved cycle stability. To promote the wettability of LM on the current collector, the metallic particles with high melting points, such as Ru and W have been introduced, and the LM composite is anchored on the substrates firmly. , All of these above results inspired us to develop an LM@MXene composite anode to boost their cycling and rate performance, especially toward wide temperature applications.…”

V₂CT_x MXene-Encapsulated Liquid Metal Composite as an Anode for Wide-Temperature Li-Ion Batteries

“…To promote the wettability of LM on the current collector, the metallic particles with high melting points, such as Ru and W have been introduced, and the LM composite is anchored on the substrates firmly. 25,26 All of these above results inspired us to develop an LM@MXene composite anode to boost their cycling and rate performance, especially toward wide temperature applications. Herein, we propose a design of a V 2 CT x @GaInSn composite by confining liquid GaInSn within layered porous V 2 CT x and investigating it as an anode for LIBs.…”

“…The self-healing performance of the LM modification layer contributes to the improved cycle stability. To promote the wettability of LM on the current collector, the metallic particles with high melting points, such as Ru and W have been introduced, and the LM composite is anchored on the substrates firmly. , All of these above results inspired us to develop an LM@MXene composite anode to boost their cycling and rate performance, especially toward wide temperature applications.…”

V₂CT_x MXene-Encapsulated Liquid Metal Composite as an Anode for Wide-Temperature Li-Ion Batteries