Interface engineering of Fe-Co3N/CoP composite with N-doped C by using soybean: Fabrication of efficient electrocatalysts for oxygen evolution reaction

IF 6.4 3区环境科学与生态学 Q2 ENERGY & FUELS

Carbon Resources Conversion Pub Date : 2023-06-01 DOI:10.1016/j.crcon.2022.12.005

Longqing Gao , Xiumin Li , Chao Tang , Tianshuo Xie , Zhengkun Xie , Haimei Li , Guoqing Guan , Jie Liu , Keyong Tang

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引用次数: 0

Abstract

Soybean can serve as an efficient carbon and nitrogen source for in-situ fabrication of efficient composite electrocatalysts with conductive nitrogen-doped carbon (N-C) material. In this study, the iron-doped cobalt nitride/phosphide (Fe-Co₃N/CoP) nanosheet was composited with a conductive N-C material by using soybean as C and N source, as well as NH₃ as additional nitrogen source. During the nitridation process of Fe-Co₃N, N-C bond was formed as a newly generated Co(Fe)-N-C active sites. Therefore, it fabricates a good microscopic contact interface between the catalyst and carbon material for charge transfer. Besides, the introduction of Fe-CoP by partially phosphating Fe-Co₃N further improved the OER activity due to the high catalytic activity of Co sites with high valence state. As a result, the obtained electrocatalyst exhibited overpotentials as low as 285 and 390 mV for supporting 10 and 100 mA/cm⁻² current densities. This work indicates that the design of materials with good interfaces could be an effective approach for the preparation of electrocatalysts for water electrolysis.

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大豆n掺杂C Fe-Co3N/CoP复合材料的界面工程:高效析氧电催化剂的制备

大豆可以作为一种有效的碳和氮源，用于原位制备具有导电氮掺杂碳（N-C）材料的高效复合电催化剂。在本研究中，以大豆为碳和氮源，以及NH3为额外的氮源，将铁掺杂的氮化钴/磷化物（Fe-Co3N/CoP）纳米片与导电的N-C材料复合。在Fe-Co3N的氮化过程中，形成了新生成的Co（Fe）-N-C活性位的N-C键。因此，它在催化剂和碳材料之间制造了良好的微观接触界面，用于电荷转移。此外，通过部分磷化Fe-Co3N引入Fe-CoP，由于高价态Co位点的高催化活性，进一步提高了OER活性。因此，所获得的电催化剂在支持10和100 mA/cm−2电流密度时表现出低至285和390 mV的过电势。这项工作表明，设计具有良好界面的材料可能是制备水电解电催化剂的有效途径。

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来源期刊

Carbon Resources Conversion Materials Science-Materials Science (miscellaneous)

CiteScore

9.90

自引率

11.70%

发文量

审稿时长

10 weeks

期刊介绍： Carbon Resources Conversion (CRC) publishes fundamental studies and industrial developments regarding relevant technologies aiming for the clean, efficient, value-added, and low-carbon utilization of carbon-containing resources as fuel for energy and as feedstock for materials or chemicals from, for example, fossil fuels, biomass, syngas, CO2, hydrocarbons, and organic wastes via physical, thermal, chemical, biological, and other technical methods. CRC also publishes scientific and engineering studies on resource characterization and pretreatment, carbon material innovation and production, clean technologies related to carbon resource conversion and utilization, and various process-supporting technologies, including on-line or off-line measurement and monitoring, modeling, simulations focused on safe and efficient process operation and control, and process and equipment optimization.