作为整体水分离高效双功能电催化剂的 FexMo1-xS2/CNT@CC 纳米片

IF 1 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Digest Journal of Nanomaterials and Biostructures Pub Date : 2023-12-04 DOI:10.15251/djnb.2023.184.1473

Z. W. Chen, J. L. Zhu, J. Liu, A. X. Wei

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引用次数: 0

摘要

通过改变前驱体溶液中FeSO4·7H2O与Na2MoO4·2H2O的摩尔比，采用水热法在碳纳米管@碳布(CNT@CC)衬底上生长出不同Fe掺杂量x的FexMo1-xS2纳米片。研究了Fe掺杂量x对HER、OER和总水分解性能的影响。FexMo1-xS2纳米片在x=0.050时具有最佳的HER和OWS性能，在x=0.075时具有最佳的OER性能。电流密度为100 mA/cm2时的过电位为198 mV, Tafel斜率为44.7 mVdec-1;在1 M KOH电解液中，OER分别为279 mV和24.5 mV/dec。以Fe0.05Mo0.95S2/ CNT@CC为正极和负极的电解槽在电流密度为100 mAcm-2时获得了1.69 V的电压。FexMo1-xS2/ CNT@CC催化剂的双功能催化活性来自于FexMo1-xS2纳米片与碳纳米管之间的协同作用。

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FexMo1-xS2/CNT@CC nanosheets as an efficient bifunctional electrocatalyst for overall water splitting

The FexMo1-xS2 nanosheets with different Fe doping content x were grown on carbon nanotubes @ carbon cloth (CNT@CC) substrate using a hydrothermal method by varying the molar ratio of FeSO4·7H2O to Na2MoO4·2H2O in the precursor solution. The effect on HER, OER and overall water splitting (OWS) performance of Fe doping content x were studied. The FexMo1-xS2 nanosheets have the optimal HER and OWS performance for x=0.050 and the optimal OER performance for x=0.075. The overpotential at current density of 100 mA/cm2 and Tafel slope are 198 mV and 44.7 mVdec-1 for HER; and they are 279 mV and 24.5 mV/dec for OER in 1 M KOH electrolyte. The electrolytic cell using Fe0.05Mo0.95S2/ CNT@CC as both cathode and anode achieves a voltage of 1.69 V at current density of 100 mAcm-2 . The bifunctional catalytic activities of the FexMo1-xS2/ CNT@CC catalyst come from the synergistic effect between FexMo1-xS2 nanosheets and CNT.

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