FePc-MXene催化材料制备及其性能的综合实验设计  

Comprehensive Experimental Design of FePc-MXene-Based Catalysts and Its Performance Testing

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作  者:张洁[1] 向松敏 谭兴 刘佳垚 卢泽 李韦漫 王文武[1] ZHANG Jie;XIANG Songmin;TAN Xing;LIU Jiayao;LU Ze;LI Weiman;WANG Wenwu(College of Material Science and Engineering,Sichuan University,Chengdu 610065,China)

机构地区:[1]四川大学材料科学与工程学院,成都610065

出  处:《实验科学与技术》2025年第2期34-41,共8页Experiment Science and Technology

基  金:四川大学大学生创新创业训练计划(C2024129877);中央高校基本科研业务费专项资金(20826041E4280)。

摘  要:以“柔性锌空电池”这一研究和发展热点为主题,依托新能源专业,以柔性锌空电池空气阴极催化剂存在的问题为切入点,采用轴向配位的策略制备了酞菁铁(FePc)和功能化的MXene复合催化材料,并进行物理表征和电化学性能测试。该综合实验设计有助于学生掌握催化材料的基本制备方法,深入理解电化学理论,熟悉柔性锌空电池的组装流程和测试方法,熟知科研工作的基本流程,进一步认识所学课程在新能源领域中的重要作用,培养科研探索意识和自主学习能力。The comprehensive experimental design takes the“flexible Zn-air battery”as the research and development hotspot.It relies on the major of new energy to solve the problems in the air cathode catalyst of flexible Zn-air battery.The axial coordination strategy is adopted to prepare the iron phthalocyanine(FePc)and the functional MXene composite catalytic materials.Besides,the physical characterization and electrochemical performance are conducted and further evaluated.This teaching design helps students master the basic preparation method of catalytic materials and deeply understand the electrochemical theory.It is also beneficial to make students be familiar with the assembly process and testing methods of flexible zinc-air batteries as well as the basic process of scientific research.Furthermore,the students can better understand the significance of new energy courses and improve the awareness of scientific research,exploration,and independent learning ability.

关 键 词:综合实验设计 MXene 催化剂 锌空电池 

分 类 号:G424.31[文化科学—课程与教学论]

 

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