Authors: Da‐Eun Hyun, Jong Chan Choi, Yoon Ho Kim, Yejin Ra, Jae Sol Sim, Jung‐Kul Lee, Yun Chan Kang
Published: 2025-05-30
Source: Full article
AbstractModifying the current collector is a promising strategy to enable Li metal anodes with minimal Li consumption. Herein, a scalable electrodeposition method is introduced to construct 3D ZnO/Zn(OH)2 nanosheets on Cu foil (ZOH NSs–Cu foil). Cu(OH)2 nanowires are first formed via anodization, followed by electroconversion of Cu2+ and Zn2+ ions. DFT calculations reveal that the ZOH NSs–Cu foil exhibits high Li adsorption energy, imparting strong lithiophilicity and lowering the Li nucleation overpotential. The 3D nanosheet structure provides a large electrochemically active surface, reducing the effective current density. Furthermore, ZOH NSs–Cu foil exhibits low charge transfer resistance and promotes a Li2O/LiF‐rich solid electrolyte interphase (SEI) layer, further reducing interfacial resistance. SEM analysis and simulations confirm uniform Li deposition on ZOH NSs–Cu foil. In asymmetric cells (1 mAh cm−2 at 1 mA cm−2), ZOH NSs–Cu foil supports stable cycling for over 400 cycles. Furthermore, a full cell coupling a LiFePO4 (LFP) cathode with a Li@ZOH NSs–Cu foil anode retains high capacity with ≈100% Coulombic efficiency over 350 cycles at 1 C, even at an N/P ratio of ≈1.9. This binder‐free, scalable approach offers precise Li deposition control and excellent electrochemical performance, advancing the practical application of Li metal anodes.