化学
两性离子
氢氧化物
电化学
晋升(国际象棋)
无机化学
有机化学
电极
物理化学
分子
政治学
政治
法学
作者
Jianxiang Wu,Yuxin Chen,Wei Du,Yaming Hao,Shaoyan Wang,Ran Wang,Shuangshuang Cha,Xuejing Yang,Chang Yan,Cheng Lian,Honglai Liu,Ming Gong
摘要
The electrode/electrolyte interfacial structure is a seminal component that governs the activity of electrocatalytic water splitting, providing alternative approaches to electrocatalyst design. Herein, we demonstrate that a dense interface constituting of zwitterionic betaine could selectively accelerate the alkaline oxygen evolution reaction (OER) by 2 orders of magnitude in current. The hygroscopic betaine molecules not only bind water molecules strongly but also endow the underhydrated characteristics of the hydroxide anions that increase their activity coefficient. The underhydrated hydroxide anions can also be enriched within the inner Helmholtz plane, which forms the mixed hydroxide anion-betaine adsorbate layer that significantly increases the effective potential that drives the OER. This interface can further segregate the reactive zones to selectively promote hydroxide oxidation and retard the oxidative polymerization of neutral anilines for improving the durability by at least an order of magnitude, creating new possibilities for impure water electrolysis.
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