通过掺杂磷酸的聚苯胺轻松碳热合成基于金属磷化物的多功能电催化剂

D. Mazur, O. Pariiska, Y. Kurys', Vyacheslav Koshechko, V. Pokhodenko
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摘要

过渡金属磷化物(TMPs)及其复合材料是氢进化(HER)、氧进化(OER)和氧还原(ORR)反应中很有前途的非铂电催化剂。但是,获得这些电催化剂的传统方法通常需要经过多个步骤,而且在磷化过程中还需要有害磷化合物的参与。在此,我们展示了使用掺杂磷酸的聚苯胺(PANI∙H3PO4)同时作为 C、N 和 P 的来源,获得基于 N、P 掺杂碳和纳米及/或亚微米 TMP 粒子的复合材料作为 HER、OER 和 ORR 电催化剂的可能性。将 PANI∙H3PO4 与 Co、Ni、Mo 或 Fe 盐一起热解,可通过碳热还原途径形成这种复合电催化剂。无论电解质的 pH 值如何,基于 MoP 的电催化剂在 HER 中的特点是氢演化的塔菲尔斜率和过电位最小,并且在长期运行中表现出很高的稳定性。与此同时,其他复合材料是多功能电催化剂,不仅在 HER 中具有活性,而且在 OER 和 ORR 中也具有活性。所提出的方法可以作为一个起点,用于制备基于 TMP 的多功能电催化剂,并进一步提高其性能。
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Facile Carbothermal Synthesis of Metal Phosphides-Based Multifunctional Electrocatalysts via Polyaniline Doped with Phosphoric Acid
Transition metal phosphides (TMPs) and their composites are promising non-platinum electrocatalysts for hydrogen evolution (HER), oxygen evolution (OER), and oxygen reduction (ORR) reactions. But traditional methods to obtain these electrocatalysts are usually multi-step and include the participation of hazardous phosphorus compounds during phosphidation. Here, the possibility of using a polyaniline doped with phosphoric acid (PANI∙H3PO4) – as a source of C, N and P simultaneously - to obtain composites based on N,P-doped carbon and nano- and/or submicron TMP particles as HER, OER and ORR electrocatalysts is demonstrated. The pyrolysis of PANI∙H3PO4 together with Co, Ni, Mo, or Fe salt allows the formation of such composite electrocatalysts by the carbon thermal reduction route. Regardless of the pH of the electrolyte, the MoP-based electrocatalyst is characterized in HER by the smallest Tafel slope and overpotential of hydrogen evolution and also exhibits high stability during long-term operation. At the same time, other composites are multifunctional electrocatalysts possessing activity not only in HER, but also in OER and ORR. The proposed approach can be a starting point for a simple, universal in choice of d-metal, and environmentally attractive preparation of multifunctional TMP-based electrocatalysts with further improvement of their performance.
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