构建具有增强电子传输调控和析氧活性位点的类神经元结构硫化镍/金属有机框架复合材料

Constructing Neuron-like Structured NiS/MOF Composites with Enhanced Regulation of Electron Transport and Active Sites for Oxygen Evolution.

作者信息

Guo Yanli, Zhou Di, Huang Yanyan, Song Xiaolong, He Wei

机构信息

School of Mechanical Engineering, Chengdu University, Chengdu 610106, China.

State Key Laboratory for Mechanical Behaviour of Materials, Xi'an Jiaotong University, Xi'an 710049, China.

出版信息

Molecules. 2024 Dec 28;30(1):80. doi: 10.3390/molecules30010080.

DOI:10.3390/molecules30010080

PMID:39795137

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11721963/

Abstract

Constructing fast electron transfer pathways and abundant electro-active sites is an effective strategy to improve the oxygen evolution reaction (OER) performance of catalysts. Herein, structural engineering and dual-phase engineering were employed to construct a NiS nanoparticle-encapsulated MOF configured with a pseudo-neuronal structure (NiS/MOF/HT). It was found that the pseudo-neuronal structure, constructed with a carbon nanohorn (CNH) and carbon nanotube (CNT), provided fast electron transfer pathways and abundant exposed active sites. Moreover, the NiS/MOF/HT composite obtained via partial vulcanization not only inherited the pseudo-neuronal structure but also prevented the aggregation and growth of NiS particles. NiS/MOF composites provide various active sites. With the combination of the promotion of electronic transfer and enrichment of electro-active sites (NiS, MOF), NiS/MOF/HT showed excellent performance, whose overpotential at 25 mA cm was reduced by 19.5% compared with MOF/HT.

摘要

构建快速电子转移途径和丰富的电活性位点是提高催化剂析氧反应（OER）性能的有效策略。在此，采用结构工程和双相工程构建了一种具有伪神经元结构的NiS纳米颗粒包裹的MOF（NiS/MOF/HT）。研究发现，由碳纳米角（CNH）和碳纳米管（CNT）构建的伪神经元结构提供了快速电子转移途径和大量暴露的活性位点。此外，通过部分硫化获得的NiS/MOF/HT复合材料不仅继承了伪神经元结构，还防止了NiS颗粒的聚集和生长。NiS/MOF复合材料提供了各种活性位点。通过促进电子转移和富集电活性位点（NiS、MOF）的结合，NiS/MOF/HT表现出优异的性能，其在25 mA cm时的过电位与MOF/HT相比降低了19.5%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/067f/11721963/bf2dd4374109/molecules-30-00080-g002.jpg

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构建具有增强电子传输调控和析氧活性位点的类神经元结构硫化镍/金属有机框架复合材料

Constructing Neuron-like Structured NiS/MOF Composites with Enhanced Regulation of Electron Transport and Active Sites for Oxygen Evolution.

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