创新创业理论研究与实践 ›› 2026, Vol. 9 ›› Issue (9): 163-165.

• 创新方法 • 上一篇    下一篇

新质生产力视域下固体物理课程教学改革探索

阮运军   

  1. 贵州大学 大数据与信息工程学院,贵州贵阳 550025
  • 出版日期:2026-05-10 发布日期:2026-06-30
  • 作者简介:阮运军(1990—),男,贵州凯里人,博士研究生,讲师,研究方向:电子功能材料,电子邮箱:yjruan@gzu.edu.cn。
  • 基金资助:
    贵州省教育厅项目“新质生产力视域下科教融汇协同育人模式探索——以固体电子论课程改革为例”(GZJG2024022)

Exploration of Teaching Reform in Solid State Physics from the Perspective of New Quality Productivity

RUAN Yunjun   

  1. College of Big Data and Information Engineering, Guizhou University, Guiyang Guizhou, 550025, China
  • Online:2026-05-10 Published:2026-06-30

摘要: 面对以人工智能、量子信息、新材料为核心的新质生产力发展需求,高校理工科课程体系亟待改革,以破解教学内容滞后、学生实践创新能力不足的突出矛盾。该文以电子科学与技术专业的核心基础课程固体物理为载体,以科教融汇为核心理念,构建了“理论—实践—评价”的三元教学模式;通过重构基础前沿模块化教学内容、实施标准化项目式学习(PBL)流程、建立过程性与能力导向的多元评价体系,可以有效促进学生前沿技术感知、解决复杂工程问题及提升科研创新能力,为理工科基础课程对接新质生产力人才培养目标提供了可借鉴的实践路径与改革方案。

关键词: 新质生产力, 固体物理, 教学改革, 科教融汇, 项目式学习, 创新能力培养

Abstract: Faced with the development needs of new quality productivity centered on artificial intelligence, quantum information, and new materials, the curriculum system of science and engineering courses in universities urgently needs to be reformed to solve the prominent contradictions of lagging teaching content and insufficient students'practical and innovative abilities. This article takes the core basic course of solid state physics in the field of electronic science and technology as the carrier, and integrates science and education as the core concept, constructing a three element teaching mode of“theory practice evaluation”. By reconstructing the modular teaching content of the basic frontier, implementing standardized project-based learning (PBL) processes, and establishing a multi-dimensional evaluation system that is process oriented and ability oriented, it can effectively promote students'perception of cutting-edge technology, solve complex engineering problems, and enhance their scientific research and innovation capabilities. This provides a practical path and reform plan for the integration of science and engineering basic courses with the goal of cultivating new quality productivity talents.

Key words: New quality productivity, Solid state physics, Reform in teaching, Integration of science and education, Project-based learning, Cultivation of innovation ability

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