摘要
“天然产物化学”是聚焦生物样品中有机分子结构、性能、应用等研究的一门基础课程。大力发展天然产物化学研究对实现科技创新、发现新型药物、丰富有机合成化学理论和方法有着重要意义。目前,“天然产物化学”课程的教学主要采用传统的输入式教学模式,存在教学方式单一、教学效率低下等问题。为进一步增加课堂教学的趣味性、有力提高教学质量,对“天然产物化学”课程进行适当合理的教学改革,采用“以学生为中心”的新型输出式教学模式,提升教学质量相关指标、培养学生创新思维、提高学生实践能力。
Natural Products Chemistry is a basic course which mainly focuses on the organic molecular structure,property and application studies of biological samples.Vigorously developing natural product research is significant for achieving technological innovations,discovering new drugs,enriching the theories and methods of organic synthetic chemistry.Currently the teaching method of Natural Products Chemistry course is the traditional input-based teaching model,and there are still critical issues such as single teaching method,low teaching efficiency,that need address-ing.To further increase the fun of classroom teaching,effectively improve the teaching quality,it is imperative to carry out proper and reasonable teaching reform on Natural Products Chemistry course to advance teaching quality relevant indicators,cultivate the innovative thinking and enhance the practical abilities of students by adopting the novel output-based teaching model concentrated on students.
作者
侯双双
金士威
叶航
侯婷婷
刘磊
吴丰田
Hou Shuangshuang;Jin Shiwei;Ye Hang;Hou Tingting;Liu Lei;Wu Fengtian(School of Chemistry and Materials Science,South-Central Minzu University,Hubei,430074;Huaihe Hospital of Henan University,Henan,475000;Kaifeng Central Hospital,Henan,475000;School of Chemistry and Materials Science,East China University of Technology,Jiangxi,330013)
出处
《当代化工研究》
2025年第11期138-140,共3页
Modern Chemical Research
基金
国家自然科学基金项目“用于天然气高效存储的柔性超交联聚合物设计与制备”(项目编号:22005349)
湖北省自然科学基金项目“膦基超交联聚合物载钯广谱催化材料富电子基结构与稳定性研究”(项目编号:2023AFB840)
河南省医学教育研究项目“情景模拟联合PBL教学在麻醉科专业硕士研究生中的应用”(项目编号:Wjlx2021381)
中南民族大学创新创业训练计划项目“羧化支链精细调控多孔超交联聚合物富电特性用于CO_(2)高效捕获与分离”(项目编号:S202410524032)。
关键词
天然产物化学
传统输入式教学模式
新型输出式教学模式
教学改革
natural products chemistry
traditional input-based teaching model
novel output-based teaching model
teaching reform
作者简介
侯双双(1988-),男,汉族,博士,讲师,研究方向:有机多孔材料的合成与应用。
