创新创业理论研究与实践 ›› 2026, Vol. 9 ›› Issue (5): 52-54.

• 教学革新 • 上一篇    下一篇

新工科和AI背景下晶体共价结合智能化教学研究

彭琼1, 张娅雪1, 彭君群2, 龚秀1, 赵光菊1   

  1. 1.贵州大学 物理学院,贵州贵阳 550025;
    2.毕节市七星关区第六小学,贵州毕节 551700
  • 出版日期:2026-03-10 发布日期:2026-07-01
  • 作者简介:彭琼(1991—),女,贵州毕节人,博士研究生,副教授,研究方向:物理学。
  • 基金资助:
    2024年度贵州省高等学校本科教学内容和课程体系改革项目“固体物理知识图谱建设及其智能化教学研究”(GZJG2024026); 贵州省2024年研究生教育教学改革项目“基于材料制备与表征教学改革的创新人才培养模式探索”(2024YJSJGXM019); 贵州大学2025年度本科智慧课程项目“固体物理”; 2023年教育部第二批国家级一流本科课程(线下一流课程)“大学物理1”(2023231795); 2022年度贵州省普通本科高校省级“金课”(线下一流课程)“大学物理”(2022JKXX0012)

Intelligent Pedagogical Research on Covalent Bonding in Crystalline under Emerging Engineering and AI Contexts

PENG Qiong1, ZHANG Yaxue1, PENG Junqun2, GONG Xiu1, ZHAO Guangju1   

  1. 1. College of Physics, Guizhou University, Guiyang Guizhou, 550025, China;
    2. Sixth Primary School, Qixingguan District, Bijie Guizhou, 551700, China
  • Online:2026-03-10 Published:2026-07-01

摘要: 新工科教育和人工智能(AI)发展为固体共价结合的智能化教学研究提供了发展指引。晶体共价结合作为固体物理中的关键内容,对于理解晶体的结构和性质至关重要。然而,传统教学中对共价结合的讲解往往侧重理论公式推导,缺乏应用场景与计算工具融合。为此,该文通过构建晶体共价结合知识图谱,将理论知识点及其逻辑关系可视化,结合BOPPPS教学模式提供教学方案,引入智能化教学模式,整合多种教学资源,推动学生在实践中深化共价结合知识。

关键词: 固体物理, 共价结合, 智能化教学, 跨学科教学, 知识图谱, BOPPPS教学模式

Abstract: The dual drivers of emerging engineering education and Artificial Intelligence (AI) advancement have established a strategic framework for innovating pedagogical approaches to covalent bonding in crystalline structures. As a fundamental concept in solid-state physics, covalent bonding plays a pivotal role in understanding crystalline architectures and material properties. Current instructional methodologies, however, predominantly emphasize theoretical formula derivation while insufficiently integrating computational tools with practical applications. This study proposes an integrated framework that: constructs a knowledge graph for covalent bonding to visualize theoretical concepts and their logical relationships; implements the BOPPPS model; and develops intelligent teaching paradigms through multimodal resource integration, ultimately facilitating students'practical application and deeper understanding of covalent bonding principles.

Key words: Solid state physics, Covalent bonding, Intelligent pedagogy, Interdisciplinary teaching, Knowledge graph, BOPPPS model

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