电合成
选择性
电子转移
化学
催化作用
产量(工程)
过氧化氢
膜
电催化剂
化学工程
电化学
光化学
材料科学
有机化学
电极
物理化学
生物化学
工程类
冶金
作者
Chen Ling,Dian Jin,Ruhong Li,Chaolin Li,Wenhui Wang
标识
DOI:10.1016/j.cej.2023.142903
摘要
Two-electron water oxidation (2e-WOR) is an attractive method for the electrosynthesis of hydrogen peroxide (H2O2). However, its practical application is limited by the viable 2e-WOR catalysts that can ensure high selectivity and high H2O2 yield. In this paper, a highly active 2e-WOR electrocatalyst was prepared by modifying carbon fiber paper (CFP) with a self-assembled membrane (SAMs). The SAMs modified CFP can achieve an H2O2 yield of 79.8 μmol min−1 cm−2 and an H2O2 selectivity of 82.5% at a low potential (2.1 V vs. RHE). The DFT calculation reveals that SAMs modification can modulate the *OH binding energy of the active site on CFP, thus leading to a significantly improved selectivity and production rate of H2O2. Moreover, the 2e-WOR performance is found to be independent of the functional tail groups of SAMs because the electron transfer during the 2e-WOR occurs through direct electron transfer via the carbon atoms adjacent to the O=C-M on carbon fiber rather than the well-known electron tunneling through SAMs. This study provides a new strategy for surface modification of 2e-WOR carbon-based catalysts and opens a new way for efficient electrosynthesis of H2O2.
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