Thomas R. Hoye, PhD

Distinguished Professor, College of Science and Engineering

Thomas R. Hoye

Contact Info

hoyex001@umn.edu

Office Phone 612-625-1891

Fax 612-626-7541

Office Address:
419 Smith Hall
207 Pleasant Street SE
Minneapolis, MN 55455

Mailing Address:
207 Pleasant Street, SE
Minneapolis, MN 55455

Lab Address:
Smith Hall

Distinguished Professor, College of Science and Engineering

Distinguished University Teaching Professor, Department of Medicinal Chemistry


PhD, Organic Chemistry, Harvard University, Cambridge, MA

MS, Chemistry, Bucknell University, Lewisburg, PA

BS,Chemistry, Bucknell University, Lewisburg, PA

Summary

Expertise

organic chemistry, synthesis, mechanism, structure, NMR, drug delivery, nanoparticles, sustainable polymer synthesis, natural products

Awards & Recognition

  • College of Science and Engineering Distinguished Professor (University of Minnesota)
  • Cope Scholar Award (American Chemical Society)
  • Robert Robinson Award (Royal Society of Chemistry)
  • Ernest Guenther Award in Natural Products Chemistry (American Chemical Society)
  • Minnesota Award for Outstanding Contributions to the Chemical Sciences (American Chemical Society, Minnesota Section)
  • Merck Professor of Chemistry, Morse-Alumni Award for Excellence in Undergraduate Teaching (University of Minnesota)
  • Award for Outstanding Contributions to Post-baccalaureate
  • Graduate and Professional Education (inaugural year, University of Minnesota)
  • Fellow of the Alfred P. Sloan Foundation

Professional Associations

American Chemical Society

Research

Research Summary/Interests

A primary emphasis of Professor Hoye's research group is the development of new strategies for natural product total synthesis. 

Early contributions included pioneering studies in brominative cyclizations, poly-epoxide cascade reactions, exploitation of symmetry, and development of desymmetrization strategies. 

His research interests and their impact are remarkably broad. They include: 

  • advancing new synthetic methods
  • natural product structure determination
  • development of new NMR-based strategies for determination of absolute and relative configurations
  • in situ (No-D) NMR spectroscopy
  • spontaneous reactions as key events in biosynthetic pathways
  • organometallic chemistry
  • olefin metathesis reactions [including relay ring-closing metathesis (RRCM)]
  • peptides and peptidomimetics as antiangiogenic agents
  • polymer synthesis
  • interfacial polymer reactions and phenomena
  • sustainable polymers from renewable resources
  • biodiesel production, design of functional block copolymers and nanoparticles for drug delivery
  • the silicate prodrug strategy
  • molecular electronic phenomena
  • discovery of CNS-active and antimalarial natural products
  • design of chiral selectors for liquid chromatographic supports
  • sea lamprey pheromone chemistry
  • development and exploitation of the hexadehydro-Diels–Alder (HDDA) reaction
  • the discovery of the pentadehydro-Diels–Alder (PDDA) and photochemical-HDDA reactions

Publications

http://hoye.chem.umn.edu/content/publication

Teaching

Teaching Areas

organic chemistry

Courses

  • CHEM 2312H Introductory Honors Laboratory
  • CHEM 2331H Introductory Honors Laboratory Lecture 
  • CHEM 4321/8321 Organic Synthesis
  • CHEM 4322/8322 Advanced Organic Chemistry