Excellent electrocatalytic performance of rice straw-derived carbon catalysts activated by zinc halides for oxygen reduction reaction

Excellent electrocatalytic performance of rice straw-derived carbon catalysts activated by zinc halides for oxygen reduction reaction

Biomass-derived carbon materials have been proved to be a prominent catalysts for oxygen reduction reaction (ORR). The chemical activator used in the preparation process of biomass-derived carbon materials has an important impact on its ORR performance. Exploration of suitable chemical activator has...

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Bibliographic Details
Published in:International journal of hydrogen energy Vol. 50; pp. 1373 - 1380
Main Authors: Ou, Dehua, Zheng, Shengbiao, Zhu, Mengjia, Chen, Rui, Gao, Tianlei, Guo, Hao, Guo, Jiahao, Tang, Jing
Format: Journal Article
Language:English
Published: Elsevier Ltd 02-01-2024
Subjects:
Electrocatalytic performance
Nitrogen-doping
Oxygen reduction reaction
Rice straw-derived carbon
Zinc halides
Nitrogen-doping
Electrocatalytic performance
Rice straw-derived carbon
Zinc halides
Oxygen reduction reaction
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Summary:Biomass-derived carbon materials have been proved to be a prominent catalysts for oxygen reduction reaction (ORR). The chemical activator used in the preparation process of biomass-derived carbon materials has an important impact on its ORR performance. Exploration of suitable chemical activator has become extremely important. Three zinc halides (ZnF2, ZnBr2, and ZnI2) and ZnCl2 used as the activators for the preparation process of rice straw-derived carbon (SDXNC) were carefully studied for the first time. The surface area, pore volume, doping N content and surface defect of as-prepared SDXNCs were effectively improved with the pyrolysis temperature of 1100 °C, further improving the ORR activity of SDXNC samples. The four rice straw-derived carbons activated by ZnX2 presented high onset potential, half-wave potential and limited current density, which can comparable to those of Pt/C. Moreover, they also occupy the typical 4-electron reduction pathway, ultrahigh methanol tolerance, and durability for ORR. Therefore, a class of low-cost and excellent chemical activators can be used for the preparation of biomass-derived carbon materials with prominent ORR activity. •For the first time, three ZnX2 were used as activators for the preparation of biochar.•The surface area, pore volume, N content and disorder degree of SDXNCs were improved.•The n values of four SDXNC for ORR process is close to 4, indicating a 4-e pathway.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2023.10.297