题目: | In Situ Molecular Self-Assembly for Dendrite-Free Aqueous Zn-Ion Batteries |
作者: | Yawen Xie1#, Lei Wang1#, Jiechang Gao1#, Shucheng Shi2, Ni Yin3, Shiqi Shen1, Shusheng Huang1, Tianran Yan1, Yang Ling1, Qi Chen3, Pan Zeng4, Yong Han2*, Zhi Liu2, Tiefeng Liu5*, and Liang Zhang1* |
摘要: | The large-scale application of low-cost and environmentally-compatible aqueous Zn-ion batteries (AZIBs) is largely hindered by the Zn dendrite growth stemming from inhomogeneous Zn deposition. To tackle this challenge, 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid is introduced as electrolyte additive to in situ construct ordered self-assembled monolayers on the Zn anode (Zn@HEPES), providing uniform active sites as Zn2+ nucleus regulators that can be dynamically and spontaneously replenished according to environmental conditions. Meanwhile, because of the regulated Zn2+ solvation sheath and the hydrophobicity of Zn@HEPES, the direct contact between active water molecules and Zn anode is effectively ameliorated, which promotes the Zn2+ transport and deposition kinetics. The above synergistic effects enable highly reversible Zn redox chemistry to achieve a uniform and dense Zn electrodeposition with suppressed Zn dendrite growth. Consequently, the thus-derived Zn||Zn symmetric cells exhibit an excellent long-term stability for 4000 h at a current density of 1 mA cm−2. Additionally, with the aid of Zn@HEPES, the full cells coupling Zn anode and MnO2 cathode also demonstrate superior reaction reversibility and capacity retention. This work demonstrates a distinctive avenue at the molecular level for precisely regulating the Zn electrodeposition process to achieve practical AZIBs. |
影响因子: | 18.5 |
分区情况: | 一区 |