《薄膜材料与器件》课程简介（本科）.docx

薄膜材料与器件课程简介课程英文名Thin Film Materials and Devices课程代码05M0095学分2总学时32理论学时32实验/实践学时0先修课程材料科学基础、大学物理适用专业材料科学与工程内容简介 （中文）薄膜材料与器件在能源、传感、通信、存储、芯片、电路等领域起着重要的支 撑作用，掌握薄膜材料与器件的制备、特性分析、应用和研究前沿，对材料科学与 工程专业学习者具有重要的意义。薄膜材料与器件课程是在此背景下材料科学与 工程一级学科下设的专业教育选修课，它是材料科学与工程专业本科生在完成通识 教育课和学科基础课后，为光学科.料方向学生设置的专业教育选修课（4选3）,是 材料科学与工程类专业培养的重要组成课程。薄膜材料与器件在课程设置上是专业教育的重要组成部分，它既延伸和拓 展了大学物理、材料科学基础、材料物理基础等课程相关内容，也与光电材料物理 基础等专业选修课相辅相成。本课程以薄膜材料为主线，将薄膜材料制备工艺、薄 膜材料生长机理、薄膜材料表征方法、薄膜材料光电特性和光电薄膜器件有机结合。 通过此课程的学习，使学生能更深刻的掌握薄膜材料的制备，以及光电薄膜器件设 计过程中需要考虑的界面、工艺兼容、光电分配等因素，进而提高学生对薄膜材料 与器件的认识，培养学生运用薄膜材料与器件的知识分析、设计和解决复杂工程问 题的能力。内容简介 （英文）Thin-film materials and devices play an important role in the fields of energy, sensing, communication, storage, chips, circuits, etc., and which are beneficial to the students of materials science and engineering majors to learn the preparation, characteristic analysis, application and research frontiers of thin-film materials and devices. Based on the above consideration, the "Thin Film Materials and Devices" course is selected as an elective course for professional education under the first-level discipline of materials science and engineering. It is a professional education elective course majoring in optical material (4 choices 3), after completing general education and subject basic courses, besides, which is also an important component course for materials science and engineering majors.“Thin Film Materials and Devices'* is an important part of professional education in the curriculum setting. It can not only extend and expand the related content of University's Physics, Fundamentals of Material Science, Fundamentals of Material Physics, etc., but also relates to the Physical Fundamentals of Optoelectronic Materials and other professional elective courses. This course focuses on thin film materials, and combines preparation technology, growth mechanism, characterization methods, photoelectric properties and photoelectric thin film devices. Through the study of thiscourse, students can have a deeper grasp of the preparation of thin film materials, as well as the factors that need to be considered in the design of photoelectric thin film devices, such as interface, process compatibility, and photoelectric distribution, so as to improve students* understanding of thin film materials and devices. Finally, students can utilize the knowledge of thin film materials and devices to analyze, design and solve complex engineering problems.执笔人审定人制定时间2022年11月