Pharmaceutical Chemistry in Taipei
This program carries a total of 13-18 quarter units. Contact your Program Coordinator to inquire about special course options for graduate students.
See Academics to learn more about applying Quarter Abroad coursework toward your major/minor/General Education requirements.
Quarter Abroad programs are academic programs so participants should expect a substantial amount of course work.
Courses (13-18 units)
The following courses are taken by all students. For chemistry majors, these are part of the necessary coursework to achieve a degree in pharmaceutical chemistry. All classes are taught in English.
Chemistry (CHE) 130A. Pharmaceutical Chemistry Part A (3)*
This course will provide an introduction to the chemical principles behind the design and production of pharmaceutical agents. Focus will be on explaining and predicting how small organic molecules bind to biological receptors, inhibit enzymes and get metabolized. This course will draw on and expand upon material covered in introductory organic chemistry such as proposing reasonable arrow-pushing mechanisms for organic reactions and predicting the reactivity of organic molecules with particular reagents.
Chemistry (CHE) 130B. Pharmaceutical Chemistry Part B (3)*
This course will provide hands-on experience with modern computational methods used in the drug design process. A variety of different computational methods—pharmacophore modeling, automated molecular docking, etc.—will be described and applied using real-life drugs and related molecules.
Seminar - Exploration of medicinal and pharmaceutical professionals). Designed to highlight career opportunities for students with a degree in pharmaceutical chemistry.
Chemistry (CHE) 150. Natural Products Chemistry (3)*
Chemistry of terpenes, steroids, acetogenins, and alkaloids: isolation, structure determination, biosynthesis, chemical transformations, and total synthesis.
Chemistry (CHE) 198. Chemistry & Culture (3, Pass/No Pass)
In this course, students will be exposed to chemical and biochemical research in Taiwan and associated aspects of local culture through attending scientific seminars and field trips in Taipei. To earn a passing grade, students will be expected to attend a certain number of events and write brief descriptions of what they learned from them.
Research Internships are completed by almost all of the students and is a highlight of the program. In order to maximize student success, research projects will be designed and planned in joint collaboration between AST and UC Davis faculty prior to departure. During Winter Quarter, UC Davis students interested in participating in the optional research internships in Taiwan will enroll in a Winter quarter CHE 198 class which meets weekly to discuss the following topics: Culture of Taiwan, Finding a research director, Developing a research project, Writing a research plan and Safety Training. Class will meet once a week during winter quarter. If you are a non-UCD student or you have another class at this time, please contact Jacquelyn Gervay-Hague.
Details about the CHE 199 course:
- Each student researcher will have dual faculty mentors, one from AST and one from UC Davis.
- Each participant will also be assigned to a researcher from AST to help oversee their research project and provide on-going on-site support and direction.
- Faculty mentors will ideally be approving the research plan on or before March 1.
- Participating students will apply to receive Transcript Notation (TN) for both Winter and Spring research activities, acknowledging successful research including project planning in addition to implementation.
*If you have already completed any or all of the courses offered (CHE 130A, 130B, 135) and would like to explore your course options that could be substituted, consult with the Chemistry Major Advisor, Perry Gee.
This program is open to students who meet the eligibility requirements.
CHE 118C or 128C (or equivalent for non-UC Davis students)
Why should chemistry students study abroad?
According to the American Chemical Society:
- Studying abroad can make you more attractive to graduate schools, particularly if you conduct research or learn another language while overseas
- Conducting research in a new environment will enhance your laboratory skills and allow you to learn the chemical sciences from an international perspective
- Science and technology are becoming increasingly global, and there is a growing demand for scientists and engineers who can work effectively in an international setting