Physicochemical Synergistic Separator Coating Induces Uniform and Rapid Deposition of Li and Zn Ions.

Li and Zn metal batteries are the most promising candidates to replace conventional Li-ion batteries. However, a series of issues, especially dendrites caused by uneven deposition of cations during charge-discharge cycles, hinder their practical application. Here, we proposed a facile separator modification method which combines physical and chemical forces to regulate uniform and rapid deposition of both Li + and Zn 2+ . Physically, the electronegativity of modified separators drives rapid transport of metal ions via a surface diffusion mode. Chemically, the polar surface functional groups on coated separators induce uniform deposition of metal ions so that the dendrite growth is effectively inhibited. As a result, the Li and Zn metal anodes employing modified separators can cycle stably for over 1000 h under a large current density of 10 mA cm -2 .