? 2022 Hydrogen Energy Publications LLCCustomizing catalysts from the electronic structure, such as spin state, is an effective but challenging strategy for oxygen evolution reaction (OER). Herein, an ultrafine Co–Fe material highly dispersed on nitrogen carbide matrix is fabricated by coordination polymer and self-templating method to scrutinize the impact of spin state of Co on OER through Fe doping. The optimized catalyst shows boosted OER performance, which only requires overpotential of 333 mV at 10 mA cm?2, outperforming other control samples and commercial RuO2. The elevated local spin states of Co by Fe doping lead to charge transfer acceleration and fast generation of oxygenated intermediates, which is proved to account for the OER elevation. In addition, the long-term stability of Co–Fe material is guaranteed by the strong coordination of Co/Fe to the melamine-formaldehyde resin, which is used to adsorb metal ions, contributing to the high dispersion of active sites during the OER process.
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机译:?2022 Hydrogen Energy Publications LLC从电子结构(如自旋态)中定制催化剂是析氧反应 (OER) 的一种有效但具有挑战性的策略。本文采用配位聚合物和自模板法制备了一种高度分散在碳化氮基体上的超细Co-Fe材料,通过Fe掺杂研究了Co的自旋态对OER的影响。优化后的催化剂具有增强的OER性能,在10 mA cm?2时仅需要333 mV的过电位,优于其他对照样品和商业RuO2。Fe掺杂导致Co局部自旋态升高,导致电荷转移加速和含氧中间体的快速生成,这被证明是OER升高的原因。此外,Co/Fe与三聚氰胺-甲醛树脂的强配位保证了Co-Fe材料的长期稳定性,三聚氰胺-甲醛树脂用于吸附金属离子,有助于OER过程中活性位点的高分散性。
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