Sulfhydryl and Sulfonic Acid Bifunctional Group Achieving (101) Crystal Preferential Reversible Zn <sup>2+</sup> Electrodeposition Without Dendrite and Nucleation Overpotential
Kaixi Yan, Yani Guo, Anuj Kumar, Yanzhi Sun, Jianjun Zhao, Yongmei Chen, Pingyu Wan, Junqing Pan
Abstract
Abstract Disordered electrodeposition of Zn 2+ resulted in serious dendrite and hydrogen evolution reactions, greatly decreasing the energy efficiency and durability of aqueous zinc ion batteries (AZIBs). Herein, sodium 2‐mercaptoethanesulfonate (MSN) is proposed as a new additive to achieve induced directional electrodeposition of Zn 2+ on the Zn (101) crystal surface to form a dense uniform Zn metal layer via the cooperative effect of sulfhydryl and sulfonic acid groups. Different from the reported additives, MSN molecules promote the rapid formation of the Zn 2+ adsorption layer, which greatly accelerates its directed migration rate and orderly nucleation process, achieving eliminated zinc dendrites and nucleation overpotential, far superior to the reported additives. The MSN‐introduced Zn||Zn symmetric battery displays amazing durability and is stably cycled for more than 3500 h at 2 mA cm −2 @ 2 mAh cm −2 , and over 1 000 h even under harsh conditions (5 mA cm −2 @ 5 mAh cm −2 ). Furthermore, the Zn||δ‐MnO 2 coin battery offers a high capacity of 201.5 mAh g −1 and a low recession rate of 1% during 800 cycles at 1 A g −1 , far higher than that of the blank sample (121.3 mAh g −1 , 56.1%), respectively, fully demonstrating the extraordinary advantages and contributions of the new MSN molecules.