J. Thomas Ippoliti portrait

J. Thomas Ippoliti

Professor
Degree
B.A. SUNY Potsdam
M.S. University of Wyoming
Ph.D. University of Wisconsin
Office
OWS 462
Phone
(651) 962-5582
Fax
2-5591
Mail
OSS 402

The students of Dr. Ippoliti's research group are actively involved in four areas of research. All of these areas utilize organic synthesis to make new molecules. The first area is in the field of diagnostic molecules. Diagnostic molecules are used to detect proteins or other biomolecules that indicate the presence of disease.  We have been synthesizing new fluorescent molecules and upconverting nanoparticles to detect the presence of enzymes that are indicative of disease.  Using Enzyme Linked ImmunoSorbent Assays (ELISA) and a start-of-the-art handheld detector, we can then utilize our new molecules to detect a variety of important bioactive molecules. The second area is synthesis of novel heterocyclic molecules. These molecules can be used to make Zeolites or Metal Organic Frameworks (MOF).  Zeolites are inorganic frameworks that can be used for catalysts or separations.  MOF’s can be used for the storage of fuels in a solid state.  The can also be used to capture CO2, a greenhouse gas. The third area is the synthesis of new antibiotics, antimalarials and molecules active against tuberculosis .  We have synthesized several new antibiotics recently based on a molecular topology program that predicted high antibacterial activity.  We are also synthesizing novel antimalarial compounds. The fourth area of research is in the area of thermochromic and photochromic molecules.  These molecules change color reversibly with temperature or light, respectively.

If you are interested in joining the research group, contact Dr. Ippoliti.

Summer 2014 Courses

Summer 2014 Courses
Course - Section Title Days Time Location

Fall 2014 Courses

Fall 2014 Courses
Course - Section Title Days Time Location
CHEM 201 - 03 Organic Chemistry I M - W - F 1055 - 1200 OWS 251
CRN: 40038 4 Credit Hours Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
CHEM 201 - 54 Organic Chemistry I/Lab - T - - - 1330 - 1730 OWS 477
CRN: 40042 0 Credit Hours Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115
CHEM 201 - 58 Organic Chemistry I/Lab - - - R - 1330 - 1730 OWS 476
CRN: 40046 0 Credit Hours Study of the various families of organic compounds. Emphasis is placed on structure determination, reaction mechanisms, stereochemistry and spectroscopy in addition to a survey of various reaction types. An introduction to biochemical topics is included. Lecture plus four laboratory hours per week. Offered fall semester. Prerequisite: A minimum grade of C- in CHEM 112 or 115

J-Term 2015 Courses

J-Term 2015 Courses
Course - Section Title Days Time Location