Gabriel LeBlanc - Faculty & Adjuncts

Gabriel LeBlanc, PhD

Gabriel LeBlanc, PhD
Chapman Wellspring Associate Professor of Chemistry and Biochemistry
College of Engineering & Natural Sciences
Chemistry and Biochemistry
918-631-2528 Website Keplinger Hall Room 2195


PhD – Vanderbilt University BS – Lyon College


Gabriel is a husband, father, teacher, and scientist currently serving as the Wellspring Associate Professor of Chemistry and Biochemistry at the University of Tulsa. Originally from Little Rock, AR, Gabriel attended Lyon College where he became interested in the field of chemistry while synthesizing novel ruthenium compounds under the guidance of Dr. Floyd Beckford. After graduating in 2010 with a B.S. in Chemistry, he then continued his education at Vanderbilt University in Nashville, TN. There he worked with Dr. David Cliffel on a solar energy project where biomaterials were interfaced with electrodes. After completing his PhD. in 2014, he spent a year at the University of Texas at Austin working with Dr. Delia Milliron on a "smart-window" project to improve energy conservation in buildings by utilizing the unique properties of metal oxide nanoparticles and composites. Currently, Gabriel is interested in how 3D printing, electrochemistry, and materials science can be used to understand new phenomena and to solve real world problems.

Research Interests

3D printing
Alternative Energy
Biosensor Development
In-situ experimental design

Teaching Interests

Analytical Chemistry
General Chemistry


Journal Articles

  • Saez Cabezas , C., K. Miller, S. Heo, A. Dolocan, G. LeBlanc, and D. Milliron. Direct Electrochemical Deposition of Transparent Metal Oxide Thin Films from Polyoxometalates. Chemistry of Materials, 2020.
  • Wirth , D., L. Waldman, M. Petty, and G. LeBlanc. Communication—Polyaniline Electrodeposition on Flexible ITO Substrates and the Effect of Curved Electrochemical Conditions. Vol. 166, Journal of The Electrochemical Society, 2019, p. D635–D637.
  • Electrochemical Control of the Thermal Stability of Atomically Thin Ag Films on Au(111). Vol. 677, Surface Science, 2018, pp. 316-23.
  • Whitehead , H., J. Waldman, D. Wirth, and G. LeBlanc. 3D Printed UV-Visible Cuvette Adapter for Low-Cost and Versatile Spectroscopic Experiments. Vol. 2, ACS Omega, 2017, pp. 6118-22.
  • Dahlman , C., G. LeBlanc, A. Bergerud, C. Staller, J. Adair, and D. Milliron. Electrochemically Induced Transformations of Vanadium Dioxide Nanocrystals. Vol. 16, Nano Letters, 2016, pp. 6021-7.
  • Kim, J.; Ong, G. K.; Wang, Y.; LeBlanc, G.; Williams, T. E.; Mattox, T. M.; Helms, B. A.; Milliron, D. J. Nanocomposite Architecture for Rapid, Spectrally-Selective Electrochromic Modulation of Solar Transmittance. Nano Lett. 2015.

  • Gizzie, E. A., LeBlanc, G., Jennings, G. K., Cliffel, D. E. Electrochemical Preparation of Photosystem I-Polyaniline Composite Films for Biohybrid Solar Energy Conversion. ACS Applied Materials & Interfaces 2015.

  • LeBlanc, G., Winter, K. M., Crosby, W. B., Jennings, G. K., Cliffel, D. E. Integration of Photosystem I with Graphene Oxide for Photocurrent Enhancement. Adv. Energy Mater. 2014, 4, 1301953.

  • Darby, E., LeBlanc, G., Gizzie, E. A., Jennings, G. K., Cliffel, D. E. Photoactive Films of Photosystem I on Transparent Reduced Graphene Oxide Electrodes. Langmuir 2014, 30, 8990-8994.

  • LeBlanc, G.; Gizzie, E. A.; Yang, S.; Cliffel, D. E.; Jennings, G. K. Photosystem I Protein Films at Electrode Surfaces for Solar Energy Conversion. Langmuir 2014, In Press.

  • Chen, G., LeBlanc, G., Jennings, G. K., Cliffel, D. E. Effect of Redox Mediator on the Photo-Induced Current of a Photosystem I Modified Electrode. J. Electrochem. Soc. 2013, 160, H315-H320.

  • Gunther, D., LeBlanc, G., Prasai, D., Zhang, J. R., Cliffel, D. E., Bolotin, K. I., Jennings, G. K. Photosystem I on Graphene as a Highly Transparent, Photoactive Electrode. Langmuir 2013, 29, 4177-4180.

  • Gunther , D., G. LeBlanc, D. Cliffel, and G. Jennings. Pueraria Lobata (Kudzu) Photosystem I Improves the Photoelectrochemical Performance of Silicon. Vol. 9, Industrial Biotechnology, 2013, pp. 37–41.
  • Chen, C., Hijazi, F. M., LeBlanc, G., Jennings, G. K., Cliffel, D. E. Scanning Electrochemical Microscopy of Multilayer Photosystem I Photoelectrochemistry. ECS Electrochem. Lett. 2013, 2, H59-H62.

  • LeBlanc, G., Chen, G., Gizzie, E. A., Jennings, G. K., Cliffel, D. E. Enhanced Photocurrents of Photosystem I Films on p-doped Silicon. Adv. Mat. 2012, 24, 5959-5962.

  • LeBlanc, G., Chen, G., Jennings, G. K., Cliffel, D. E. Photoreduction of Catalytic Platinum Particles Using Immobilized Multilayers of Photosystem I. Langmuir 2012, 28, 7952-7956.

  • Kimmel, D. W., LeBlanc, G., Meschievitz, M. E., Cliffel, D. E. Electrochemical Sensors and Biosensors. Anal. Chem. 2011, 84, 685-707.

  • Coleman, M.T., LeBlanc, G. Use of diethoxymethane as a solvent for phase transfer catalyzed reactions. Org. Proc. Res. Dev. 2010, 14, 732-736.

  • Beckford, F.A., Shaloski, M. Jr., LeBlanc, G., Thessing, J., Lewis-Alleyne, L.C., Holder, A. A., Li, L., Seeram, N.P. Microwave synthesis of mixed ligand diimine-thiosemicarbazone complexes of ruthenium(II): biophysical reactivity and cytotoxicity. Dalton Trans., 2009, 48, 10757-10764.

  • Beckford, F.A., LeBlanc, G., Thessing, J., Shaloski, M. Jr., Frost, B. J., Li, L., Seeram, N. P. Organometallic ruthenium complexes with thiosemicarbazone ligands:Synthesis, structure and cytotoxicity of [(η6-p-cymene)Ru(NS)Cl]+ (NS = 9-anthraldehyde thiosemicarbazones). Inorg. Chem. Comm. 2009, 12, 1094-1098.


  • Cliffel , D., G. LeBlanc, and G. Jennings. Biohybrid Photoelectrochemical Energy Conversion Device. Google Patents, 2013.

Courses Taught

  • General Chemistry II Laboratory
  • Undergraduate Research
  • General Chemistry I Laboratory
  • Analytical Chemistry I Laboratory
  • Analytical Chemistry I
  • Analytical Chemistry II Laboratory
  • General Chemistry I

Professional Affiliations

  • Electrochemical Society
  • American Chemical Society

Awards & Honors

  • American Chemical Society Division of Analytical Chemistry Summer Fellowship
  • SciFinder® Future Leaders in Chemistry
  • National Association of Intercollegiate Athletics Scholar Athlete All-American