摘要
本实验旨在设计并制备硅纳米线阵列(SiNWs)/磷化镍钴(NCP)超级电容器电极材料,研究内容涵盖文献调研、电极材料的制备与表征、数据处理与分析等关键环节。通过实验,学生能够深入理解能源领域的前沿动态,掌握超级电容器电极材料的工作机理及其关键影响因素,熟练运用电极材料的制备与表征技术,进一步提升理论联系实际的能力和实践创新能力,从而实现知识的系统化整合。此外,本实验的设计不仅有助于深化学生对能源危机及绿色化学重要性的认识,拓宽其学术视野,还能有效强化团队合作意识,为能源领域创新型人才的培养奠定坚实基础,具有显著的教学价值。
A research-oriented comprehensive experiment was designed,focusing on the hybrid supercapacitor electrode fabricated from silicon nanowire arrays(SiNWs)and nickel-cobalt phosphide(NCP).This experiment encompassed a literature review,material preparation and characterization,data processing and analysis,among other components.Through the experiment,students can gain insights into cutting-edge advancements in the energy field,understand the working mechanisms of supercapacitor electrode materials,and acquire skills in material preparation and characterization methods,thus enhancing their integration of theoretical knowledge with practical applications and fostering their practical inventive abilities.The experimental design not only provided strong support for cultivating innovative talents in the energy field,but also demonstrated significant teaching value.
作者
申小娟
黄崇奥
SHEN Xiaojuan;HUANG Chongao(School of Materials Science&Engineering,Jiangsu University,Jiangsu Zhenjiang 212013,China)
出处
《广州化工》
2025年第15期206-209,共4页
GuangZhou Chemical Industry
关键词
研究型综合实验
硅纳米线阵列
磷化物
超级电容器
电化学性能
research-oriented comprehensive experiment
silicon nanowire arrays
metal phosphides
supercapacitor
electrochemical performance
作者简介
申小娟(1986-),女,副教授,主要研究方向为新能源材料与器件。
