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Electrochemically synthesized H2O2 at industrial-level current densities enabled by in situ fabricated few-layer boron nanosheets

Nature Communications [2024]
Wu Yuhan, Zhao Yuying, Yuan Qixin, Sun Hao, Wang Ao, Sun Kang, Waterhouse Geoffrey I. N., Wang Ziyun, Wu Jingjie, Jiang Jianchun, Fan Mengmeng
ABSTRACT

Carbon nanomaterials show outstanding promise as electrocatalysts for hydrogen peroxide (H 2 O 2 ) synthesis via the two-electron oxygen reduction reaction. However, carbon-based electrocatalysts that are capable of generating H 2 O 2 at industrial-level current densities (>300 mA cm −2 ) with high selectivity and long-term stability remain to be discovered. Herein, few-layer boron nanosheets are in-situ introduced into a porous carbon matrix, creating a metal-free electrocatalyst (B n -C) with H 2 O 2 production rates of industrial relevance in neutral or alkaline media. B n -C maintained > 95% Faradaic efficiency during a 140-hour test at 300 mA cm −2 and 0.1 V vs. RHE, and delivered a mass activity of 25.1 mol g catalyst −1 h −1 in 1.0 M Na 2 SO 4 using a flow cell. Theoretical simulations and experimental studies demonstrate that the superior catalytic performance originates from B atoms with adsorbed O atoms in the boron nanosheets. B n -C outperforms all metal-based and metal-free carbon catalysts reported to date for H 2 O 2 synthesis at industrial-level current densities.

MATERIALS

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