Dr. Bazzi's research interests focus on metathesis chemistry as a powerful tool in small molecule and polymer synthesis, in addition to polymer-supported catalysis, DNA-mimetic polymers, and fluorous analogs of ruthenium based catalysts.
de Rochambeau, D., Barłóg, M., Edwardson, T., Fakhoury, J. J., Stein, R. S., Bazzi, H. S., & Sleiman, H. F.
(2016).“DNA–Teflon” sequence-controlled polymers. Polymer Chemistry.
7(31), 4998-5003.
Serpell, C. J., Barłóg, M., Basu, K., Fakhoury, J. F., Bazzi, H. S., & Sleiman, H. F.
(2014).Nucleobase peptide amphiphiles. Materials Horizons.
1(3), 348-354.
Bazzi, H. S., Su, H., Georges, B., Hobbs, C., Yang, Y., Hongfa, C., & Bergbreiter, D. E.
(2011).Phase-separable metathesis polymerization catalyst. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY.
Chance, B. S., Mostafa, A., & Bazzi, H. S.
(2008).Novel charge-transfer polymers via romp. American Chemical Society, Polymer Preprints, Division of Polymer Chemistry.
537-538.
Bazzi, H. S., Hongfa, C., & Bergbreiter, D. E.
(2007).Novel PIB-based metathesis catalyst. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY.
Bazzi, H. S., Bouffard, J., & Sleiman, H. F.
(2002).Synthesis of functionalizable polymers via ROMP. American Chemical Society, Polymer Preprints, Division of Polymer Chemistry.
1081-1082.