[1]王建军,李华.课程思政在工科专业中的实践路径研究.中国高等教育,2021,(12):45-49.
 [2]张伟,刘洋.智慧课程建设对高校教学改革的推动作用.现代教育技术,2020,30(05):78-83.
 [3]陈晓明,赵丽.虚拟仿真实验在材料科学教学中的应用探索.实验室研究与探索,2019,38(08):112-116.
 [4]教育部高等教育司.新工科背景下课程思政的育人机制研究.思想理论教育导刊,2020,(06):34-38.
 [5]黄磊,周敏.“双碳”战略驱动下的新能源材料教学设计.化学教育,2022,43(03):67-71.
 [6]李强,王芳.基于大数据分析的精准教学模式研究.电化教育研究,2021,(04):89-94.
 [7]刘志军,徐静.混合式教学在工程伦理教育中的实践.高等工程教育研究,2018,(02):55-60.
 [8]Johnson,L.,Adams Becker,S.,&Cummins,M.NMC Horizon Report:2016 Higher Education Edition.The New Media Consortium.2016.
 [9]Means,B.,Toyama,Y.,Murphy,R.,&Baki,M.The effectiveness of online and blended learning:A meta-analysis of the empirical literature.Teachers College Record,115(3),1-47.2013.
 [10]Prince,M.Does active learning work?A review of the research.Journal of Engineering Education,2004,93(03):223-231.
 [11]Dori,Y.J.,&Belcher,J.How does technology-enabled active learning affect undergraduate students’understanding of electromagnetism concepts?The Journal of the Learning Sciences,2005,14(02):243-279.
 [12]Felder,R.M.,&Brent,R.Teaching and learning STEM:A practical guide.John Wiley&Sons.2016.
 [13]Wieman,C.Large-scale comparison of science teaching methods sends clear message.Proceedings of the National Academy of Sciences,2014,111(23):8319-8320.
 [14]Kolb,D.A.Experiential learning:Experience as the source of learning and development.FT Press.2014.
 [15]Freeman,S.,et al.Active learning increases student performance in science,engineering,and mathematics.Proceedings of the National Academy of Sciences,2014,111(23):8410-8415.