The in-situformed Li–B alloy provides abundant nucleation sites for inducing uniform Li deposition and inhibiting Li dendrite formation. The 3D porous Ni foam can provide enough space for relieving volume change.
Severe Li dendrite growth, “dead” Li accumulation, and infinite volume changes during repeated cycling significantly hinder the practical applications of lithium metal anodes (LMAs). To solve the above-mentioned concerns, a lithiophilic Li–B alloy layer is constructed to modify the lithiophobic Ni foam (NF) to lithiophilic viaan in situalloying reaction of Ni 3B (Ni 3B/B@NF). The in situformation of Li–B alloy can not only provide enriched nucleation sites for inducing Li metal conformal growth along the lithiophilic alloying layer with reduced nucleation overpotential but also homogenize Li +flux for lowering concentration polarization near the electrode, thus inhibiting the Li dendrite growth achieving dendrite-free Li deposition morphology. In addition, the 3D porous NF with a high specific surface area can largely reduce the local current density and synergistically impede the growth of dendritic Li. Moreover, NF offers enough space for accommodating deposited metal Li, relieving volume fluctuation during the Li plating/stripping process. As a consequence, the symmetric battery with the Ni 3B/B@NF electrode presents a low overpotential of 11 mV and stably cycles for 820 h at a current density of 1 mA cm −2with a fixed capacity of 2 mA h cm −2. In addition, the assembled full cell exhibits improved cycling stability and rate performance, confirming the application perspective of Ni 3B/B@NF in stabilizing LMAs.