原位锚定在MXene上的Co掺杂NiFe LDH纳米片用于水裂解中高效的析氧反应

IF 2.6 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

CrystEngComm Pub Date : 2025-05-15 DOI:10.1039/D5CE00430F

Wenping Dong, Bo Wei, Lifang Zhang, Zhe Zhang, Hongyu Yang, Yixuan Zhou, Xiaojun Pan, Xin Xia, Feng Ye and Chao Xu

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引用次数: 0

摘要

开发高效、低成本、长效的电催化剂是提高碱水裂解过程中析氧反应的关键。本文采用简单的溶剂热法成功合成了一种新型的MXene （Ti3C2Tx）负载的共掺杂NiFe层状双氢氧化物（NiFeCo0.75 LDH@Ti3C2Tx）。利用扫描电镜对NiFeCo0.75 LDH@Ti3C2Tx的形貌进行表征。采用线性扫描伏安法测定了NiFeCo0.75 LDH@Ti3C2Tx的电催化性能。NiFeCo0.75 LDH@Ti3C2Tx催化剂表现出优异的OER活性，NiFeCo0.75 LDH纳米片均匀分散在Ti3C2Tx载体上。NiFeCo0.75 LDH@Ti3C2Tx在10和300 mA cm−2电流密度下的过电位分别为258和330 mV，明显低于NiFeCo0.75 LDH （259 mV和351 mV）和NiFe LDH （270 mV和374 mV）。此外，NiFeCo0.75 LDH@Ti3C2Tx催化剂的Tafel斜率为44.78 mV dec−1，并在10 mA cm−2下表现出超过400小时的优异长期稳定性。并对Co掺杂NiFe LDH@Ti3C2Tx的OER催化机理进行了初步探讨。结果表明，MXene载体和Co掺杂有效地调整了LDH的电子结构和d带中心，从而提高了NiFeCo0.75的OER性能LDH@Ti3C2Tx。

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Co doped NiFe LDH nanosheets in situ anchored on MXene for the highly efficient oxygen evolution reaction in water splitting†

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Co doped NiFe LDH nanosheets in situ anchored on MXene for the highly efficient oxygen evolution reaction in water splitting†

The development of efficient, low-cost, and long-lasting electrocatalysts is critical for enhancing the oxygen evolution reaction (OER) in alkaline water splitting. Herein, we successfully synthesized a novel MXene (Ti₃C₂T_x) supported Co-doped NiFe layered double hydroxide (NiFeCo_0.75 LDH@Ti₃C₂T_x) by the simple solvothermal method. The morphology of NiFeCo_0.75 LDH@Ti₃C₂T_x was characterized using scanning electron microscopy. The electrocatalytic performance of NiFeCo_0.75 LDH@Ti₃C₂T_x was measured by linear sweep voltammetry. The NiFeCo_0.75 LDH@Ti₃C₂T_x catalyst exhibited superior OER activity with the uniform dispersion of NiFeCo_0.75 LDH nanosheets uniformly dispersed on the Ti₃C₂T_x support. The overpotential of NiFeCo_0.75 LDH@Ti₃C₂T_x at current densities of 10 and 300 mA cm⁻² is only 258 and 330 mV, respectively, which is significantly lower than those of NiFeCo_0.75 LDH (259 mV and 351 mV) and NiFe LDH (270 mV and 374 mV), respectively. Additionally, the NiFeCo_0.75 LDH@Ti₃C₂T_x catalyst achieved a Tafel slope of 44.78 mV dec⁻¹ and demonstrated excellent long-term stability for over 400 h at 10 mA cm⁻². Furthermore, the OER catalytic mechanism of Co doped NiFe LDH@Ti₃C₂T_x was preliminarily discussed. The results show that the MXene support and Co doping effectively tailors the electronic structure and D-band center of LDH, thereby boosting the OER performance of NiFeCo_0.75 LDH@Ti₃C₂T_x.