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He earned a BSc and PhD in organic chemistry from Colorado State University in 1970 and 1973, and a Diploma of Imperial College (DIC), London, England. After postdoctoral studies with Nobel laurates Derek H. R. Barton (Imperial College, London) and Elias J. Corey (Harvard University, MA) he joined the faculty at the then University of Texas ...
He obtained his B.S. degree from the University of Michigan (1971) [3] and his Ph.D. degree from Stanford University (1974). [4] He subsequently held faculty positions at UCLA (1974-1982) and the University of Utah (1982-1998). He then accepted the Chair of Organic Chemistry at the University of Erlangen-Nuremberg in Germany. [5]
Organic chemistry is a subdiscipline within chemistry involving the scientific study of the structure, properties, and reactions of organic compounds and organic materials, i.e., matter in its various forms that contain carbon atoms. [1]
The University of Texas Medical Branch (UTMB) is a public academic health science center in Galveston, Texas, United States. It is part of the University of Texas System. UTMB includes the oldest medical school in Texas, [5] and has about 11,000 employees. [6] As of April 2024, it had an endowment of $763 million. [7]
An academic discipline or field of study is known as a branch of knowledge. It is taught as an accredited part of higher education . A scholar's discipline is commonly defined and recognized by a university faculty.
Currently, Martin’s research interests lie in the areas of synthetic organic and bioorganic chemistry. In the former, his focus lies in the development of new strategies and tactics and their application to the concise syntheses of a wide variety of complex natural products, including alkaloids, C-aryl glycosides, and polyketides that exhibit useful biological activities.
In the medicinal chemistry specialty areas associated with the design and synthesis of chemical libraries or the execution of process chemistry aimed at viable commercial syntheses (areas generally with fewer opportunities), training paths are often much more varied (e.g., including focused training in physical organic chemistry, library ...
Of the $152.3 million of research expenditure for the fiscal year 2023 in the University of Texas at San Antonio, the College of Sciences contributed to $46.3 millions. Allowing students to participate in the growth of their fields through research enables them to succeed both in academia as well as in the applied sciences. [16]