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Synchronous Modulation of H‐bond Interaction and Steric Hindrance via Bio‐molecular Additive Screening in Zn Batteries

Wenyi Guo, Liang Xu, Yunpeng Su, Liming Zhao, Yifan Ding, Yuhan Zou, Guangping Zheng, Tao Cheng, Jingyu Sun

2024Angewandte Chemie18 citationsDOIOpen Access PDF

Abstract

Abstract In addressing challenges such as side reaction and dendrite formation, electrolyte modification with bio‐molecule sugar species has emerged as a promising avenue for Zn anode stabilization. Nevertheless, considering the structural variability of sugar, a comprehensive screening strategy is meaningful yet remains elusive. Herein, we report the usage of sugar additives as a representative of bio‐molecules to develop a screening descriptor based on the modulation of the hydrogen bond component and electron transfer kinetics. It is found that xylo‐oligosaccharide (Xos) with the highest H‐bond acceptor ratio enables efficient water binding, affording stable Zn/electrolyte interphase to alleviate hydrogen evolution. Meanwhile, sluggish reduction originated from the steric hindrance of Xos contributes to optimized Zn deposition. With such a selected additive in hand, the Zn||ZnVO full cells demonstrate durable operation. This study is anticipated to provide a rational guidance in sugar additive selection for aqueous Zn batteries.

Topics & Concepts

Steric effectsChemistryModulation (music)Computational chemistryCombinatorial chemistryStereochemistryPhysicsAcousticsAdvanced battery technologies researchNanomaterials for catalytic reactions
Synchronous Modulation of H‐bond Interaction and Steric Hindrance via Bio‐molecular Additive Screening in Zn Batteries | Litcius