本文以前沿无机化学实验—基于静电纺丝技术制备 UiO-66-PAN 纳米纤维为例,探讨了 OBE 理念在前沿无机化学实验教学中的应用。文章强调了明确学习目标的重要性,并介绍了静电纺丝技术的原理和特点。在制备UiO-66-PAN纳米纤维的过程中,需要调整静电纺丝参数以控制纤维形态和直径。最后,文章指出融入OBE理念可以帮助学生理解原理、掌握技能,并培养解决问题的能力。通过这一案例分析,本文为前沿无机化学实验教学提供了有益的借鉴和启示。
Integration of the OBE Concept into Advanced Inorganic Chemistry Experimental Teaching-Electrospinning-based Synthesis of UiO-66-PAN Nanofibers
This paper explores the application of the OBE concept in the advanced inorganic chemistry experimental teaching,using the preparation of UiO-66-PAN nanofibers based on electrospinning as an example.The importance of clearly defining learning objectives is emphasized,and the principles and characteristics of electrospinning technology are introduced.In the process of preparing UiO-66-PAN nanofibers,it is necessary to adjust the electrospinning parameters to control the fiber morphology and diameter.Finally,the paper points out that integrating the OBE concept can help students understand the principles,master skills,and develop problem-solving abilities.Through this case analysis,the paper provides useful references and insights for the teaching of advanced inorganic chemistry experiments.
OBE conceptchemistry experimentsteaching reformelectrospinningnanofibers
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