Fan Ruo-Yao, Zhai Xue-Jun, Qiao Wei-Zhen, Zhang Yu-Sheng, Yu Ning, Xu Na, Lv Qian-Xi, Chai Yong-Ming, Dong Bin
China State Key Laboratory of Heavy Oil Processing, College of Chemistry and Chemical Engineering, China University of Petroleum (East China), Qingdao, 266580, People's Republic of China.
Nanomicro Lett. 2023 Jul 29;15(1):190. doi: 10.1007/s40820-023-01159-6.
Glycerol (electrochemical) oxidation reaction (GOR) producing organic small molecule acid and coupling with hydrogen evolution reaction is a critical aspect of ensuring balanced glycerol capacity and promoting hydrogen generation on a large scale. However, the development of highly efficient and selective non-noble metal-based GOR electrocatalysts is still a key problem. Here, an S-doped CuO nanorod array catalyst (S-CuO/CF) constructed by sulfur leaching and oxidative remodeling is used to drive GOR at low potentials: It requires potentials of only 1.23 and 1.33 V versus RHE to provide currents of 100 and 500 mA cm, respectively. Moreover, it shows satisfactory comprehensive performance (at 100 mA cm, V = 1.37 V) when assembled as the anode in asymmetric coupled electrolytic cell. Furthermore, we propose a detailed cycle reaction pathway (in alkaline environment) of S-doped CuO surface promoting GOR to produce formic acid and glycolic acid. Among them, the C-C bond breaking and lattice oxygen deintercalation steps frequently involved in the reaction pathway are the key factors to determine the catalytic performance and product selectivity. This research provides valuable guidance for the development of transition metal-based electrocatalysts for GOR and valuable insights into the glycerol oxidation cycle reaction pathway.
甘油(电化学)氧化反应(GOR)生成有机小分子酸并与析氢反应耦合,是确保甘油容量平衡和大规模促进氢气生成的关键环节。然而,开发高效且选择性高的非贵金属基GOR电催化剂仍是一个关键问题。在此,通过硫浸出和氧化重塑构建的S掺杂CuO纳米棒阵列催化剂(S-CuO/CF)用于在低电位下驱动GOR:相对于可逆氢电极(RHE),分别仅需1.23 V和1.33 V的电位就能提供100 mA cm⁻²和500 mA cm⁻²的电流。此外,当作为阳极组装在不对称耦合电解槽中时,它表现出令人满意的综合性能(在100 mA cm⁻²时,V = 1.37 V)。此外,我们提出了S掺杂CuO表面促进GOR生成甲酸和乙醇酸的详细循环反应途径(在碱性环境中)。其中,反应途径中频繁涉及的C-C键断裂和晶格氧脱嵌步骤是决定催化性能和产物选择性的关键因素。本研究为开发用于GOR的过渡金属基电催化剂提供了有价值的指导,并为甘油氧化循环反应途径提供了有价值的见解。
