有机合成-策略与控制教学设计

有机合成-策略与控制教学设计
Introduction
Organic synthesis is the heart of interdisciplinary research. Its broad applications in the industry, synthetic biology, and medicinal chemistry have ensured that it continues to play a crucial role in society’s advancements. In this guide, we present an effective way to teach the critical elements of organic synthesis, with a focus on strategy and control.
Teaching Objectives
The core objective of this organic synthesis course is to provide students with a solid theoretical and practical foundation needed for the design and implementation of synthetic pathways for organic molecules. This in turn equips students with the necessary skills to solve complex synthetic problems while building on the existing knowledge from the previous semester.
Another essential objective of this course is to develop a proper sense of judgment towards every synthetic aspect, such as reactivity, selectivity, and scaling, that contribute to carefully crafting the final product in organic synthesis.
Course Outline
The expected course outline is outlined below:
Introduction
•Overview of Organic Synthesis
•Synthetic Design and Strategy
•Retrosynthesis and Forward Synthesis
•Dos and Don’ts in Organic Synthesis
Control in Organic Synthesis
•Isolation and Purification of Organic Compounds
•Chromatography Techniques
•Spectroscopic Techniques
•Titration and Gravimetric Analysis
Advanced Synthetic Topics
•Chirality and its Impact on Synthetic Strategy
•Stereospecific Reactions
•Building Complex Molecules through Synthesis The above topics present a robust roadmap that reflects the crucial element of synthetic chemistry, from the fundamentals to the more complex aspects.
Teaching Methodology
The following methodology will be applied to ensure effective teaching and delivery of the course:
1.Lectures - to provide students with fundamental knowledge
and concepts of organic synthesis that form the backbone of
synthesis.
2.Workshops - to demonstrate practical application of organic
synthesis concepts.
3.Group projects- to assess studen ts’ ability to integrate
organic synthesis principles to real-life application and develop teamwork capabilities.
Additionally, students will be provided with an appropriate platform for communication with their instructor, which will foster a conducive environment for active learning and feedback.
Assessment
The course’s final grade will be calculated based on the following assessments:
•Class participation (15%)
•Workshop progress report (25%)
•Group project presentation (40%)
•Final exam (20%)
Conclusion
Organic synthesis is a complex subject that demands a high degree of theoretical knowledge and practical skills. The teaching plan presented in this guide is designed to equip students with the theoretical and practical knowledge needed to develop a synthetic pathway for organic molecules.
The course’s success will rely on a well-planned curriculum, effective teaching methodology, and sufficient resources. The students’
interest, participation, and feedback will be an essential component in achieving the co urse’s objectives.。