广东化工2024,Vol.51Issue(19) :217-219.DOI:10.3969/j.issn.1007-1865.2024.019.070

前沿科研成果融入物理化学实验教学——镍基催化剂的碱性氢氧化反应性能研究

Integrating Frontier Scientific Research into Experimental Teaching of Physical Chemistry:Research on Hydrogen Oxidation Reaction Performance of Nickel-Based Catalysts

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广东化工2024,Vol.51Issue(19) :217-219.DOI:10.3969/j.issn.1007-1865.2024.019.070
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前沿科研成果融入物理化学实验教学——镍基催化剂的碱性氢氧化反应性能研究

Integrating Frontier Scientific Research into Experimental Teaching of Physical Chemistry:Research on Hydrogen Oxidation Reaction Performance of Nickel-Based Catalysts

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作者信息

  • 1. 扬州大学,江苏 扬州 225009
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摘要

随着我国氢能发展的战略规划和重大需求,加快培养氢能源方向的人才是大势所趋.因此,本文针对碱性氢燃料电池的阳极氢氧化动力学缓慢的问题,设计了基于水热法制备镍基金属有机框架材料(Ni-MOF-74)及其衍生物 Ni/C 材料的物理化学实验,深入探究衍生材料的碱性氢氧化性能.该实验不仅加深学生对物理化学概念,尤其是氢电催化的理解,还锻炼了学生制备催化材料的能力,提升学生对氢能源发展的认知.

Abstract

With the strategic planning and significant demand for hydrogen energy development in China,there is a general trend to expedite the training of talents in the field of hydrogen energy.Therefore,based on the issue of sluggish anodic hydrogen oxidation kinetics in alkaline hydrogen fuel cells,this paper designed physicochemical experiments on the preparation of nickel-based organic framework material(Ni-MOF-74)using a hydrothermal method and its derivative Ni/C material,further exploring into the alkaline hydrogen oxidation performance of the derivative material.This experiment not only enhances comprehension of students on physical chemistry,particularly,hydrogen electrocatalysis,but also exercises their skills in preparing catalytic materials and enriches their understanding of hydrogen energy development.

关键词

物理化学/实验教学/催化剂制备/氢氧化反应/科学前沿

Key words

physical chemistry/experimental teaching/catalyst preparation/hydrogen oxidation reaction/frontier scientific research

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出版年

2024
广东化工
广东省石油化工研究院

广东化工

影响因子:0.288
ISSN:1007-1865
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