Courses:

CHME 6911 - Topics in Chemical Engineering I: Electrochemical Engineering
CHME 6031 - Chemical Kinetics and Reaction Engineering

Interests

My current research focuses on flow batteries for grid scale electricity storage to increase the distribution of intermittent renewable energy such as wind and solar. 

Journal Publications

1. Tong, L., Goulet, M.-A., Tabor, D.P., Kerr, E.F., De Porcellinis, D., Fell, E.M., Aspuru-Guzik, A., Gordon, R.G., and Aziz, M.J., Molecular Engineering of an Alkaline Naphthoquinone Flow Battery, ACS Energy Letters, 2019, 4 (8): 1880−1887.

2. Li, W., Kerr, E.F., Goulet, M.-A., Fu, H., Zhao, Y., Yang, Y., Veyssal, A., He, J.-H., Gordon, R.G., Aziz, M.J., Jin, S., A Long Lifetime Aqueous Organic Solar Flow Battery, Advanced Energy Materials, 2019,  1900918.

3. Liu, Y., Goulet, M.-A., Tong, L., Liu, Y., Ji, Y., Wu, L., Gordon, R.G., Aziz, M.J., Yang, Z., Xu, T., A Long-Lifetime All-Organic Aqueous Flow Battery Utilizing TMAP-TEMPO Radical, Chem, 2019, 5 (7): 1–10.

4. Jin, S., Jing, Y., Kwabi, D.G., Ji, Y., Tong, L., De Porcellinis, D., Goulet, M.-A., Pollack, D.A., Gordon, R.G., Aziz, M.J., A Water-Miscible Quinone Flow Battery with High Volumetric Capacity and Energy Density, ACS Energy Letters, 2019, 4 (6): 1342−1348.

5. Park, M., Beh, E.S., Fell, E.M. ,Jing, Y., Kerr, E.F., De Porcellinis, D., Goulet, M.-A., Ryu, J., Wong, A.A., Gordon, R.G., Cho, J., Aziz, M.J., A High Voltage Aqueous Zinc–Organic Hybrid Flow Battery, Advanced Energy Materials, 2019, 1900694.

6. Goulet, M.-A., Tong, L., Pollack, D.A., Tabor, D., Odom, S.A., Aspuru-Guzik, A., Kwan, E.E., Gordon, R.G., Aziz, M.J. Extending the Lifetime of Organic Flow Batteries via Redox State Management, Journal of the American Chemical Society, 2019, 141 (20): 8014-8019.

7. Ji, Y., Goulet, M.-A., Pollack,D.A.,Kwabi, D.G., Jin, S., De Porcellinis, D., Kerr, E.F., Gordon, R.G., Aziz, M.J.,A Phosphonate-Functionalized Quinone Redox Flow Battery at Near-Neutral pH with Record Capacity Retention Rate, Advanced Energy Materials, 2019, 1900039.

8. Goulet, M.-A., Aziz, M.J., Flow Battery Molecular Reactant Stability Determined by Symmetric Cell Cycling Methods, Journal of the Electrochemical Society, 2018, 165 (7): A1466–A1477.

9. Kwabi, D., Lin, K., L., Ji, Y.,Kerr, E.F., Goulet, M.-A., De Porcellinis, D., Tabor, D., Pollack, D.A., Aspuru-Guzik,A., Gordon, R.G., Aziz, M.J., Alkaline Quinone Flow Battery with Long Lifetime at pH 12, Joule, 2018, 2 (9):1894–1906.

10. Yang, Z., Tong, L., Tabor, D.P., Beh, E.S., Goulet, M.-A., De Porcellinis, D., Aspuru-Guzik, A., Gordon, R.G., Aziz, M.J., Alkaline Benzoquinone Aqueous Flow Battery for Large-Scale Storage of Electrical Energy, Advanced Energy Materials, 2017,1702056.

11. Goulet, M.-A., Ibrahim, O. A., Kim, W.H.J. and Kjeang, E., Maximizing the power density of aqueous electrochemical flow cells with in operando deposition, Journal of Power Sources,2017, 339: 80-85.

12. Goulet, M.-A., Habisch, A. and Kjeang, E., In situ enhancement of flow-through porous electrodes with carbon nanotubes via flowing deposition, Electrochimica Acta, 2016,206: 36-44.

13. Goulet, M.-A., Skyllas-Kazacos, M. and Kjeang, E., The importance of wetting in carbon paper electrodes for vanadium redox reactions, Carbon, 2016, 101: 390-398.

14. Ibrahim, O. A., Goulet, M.-A. and Kjeang, E., In-situ characterization of symmetric dual-pass architecture of microfluidic co-laminar flow cells, Electrochimica Acta, 2016, 187:277-285.

15. Goulet, M.-A., Eikerling, M. and Kjeang, E., Direct measurement of electrochemical reaction kinetics in flow-through porous electrodes, Electrochemistry Communications, 2015, 57: 14-17.

16. Ibrahim, O. A., Goulet, M.-A. and Kjeang, E., Microfluidic Electrochemical Cell Array in Series: Effect of Shunt Current, Journal of the Electrochemical Society, 2015, 162: F639–F644.

17. Arjona, N., Goulet, M.-A., Guerra-Balcazar, M., Ledesma-Garcia, J., Kjeang, E. and Arriaga, L.G., Direct formic acid microfluidic fuel cell with Pd nanocubes supported on flow-through microporous electrodes, ECS Electrochemistry Letters, 2015,4 (4): F24-F28.

18. Sadeghi Alavijeh, A., Goulet, M.-A., Khorasany, R.M.H., Ghataurah, J., Lim, C., Lauritzen, M., Kjeang, E., Wang, G.G. and Rajapakse, R.K.N.D., Decay in Mechanical Properties of Catalyst Coated Membranes Subjected to Combined Chemical and Mechanical Membrane Degradation, Fuel Cells, 2015, 15 (1): 204-213.

19. Goulet, M.-A., Arbour, S., Lauritzen, M. and Kjeang, E., Water sorption and expansion of an ionomer membrane constrained by fuel cell electrodes, Journal of Power Sources, 2015, 274: 94-100.

20. Goulet, M.-A. and Kjeang, E., Reactant recirculation in electrochemical co-laminar flow cells, Electrochimica Acta, 2014, 140: 217-224.

21. Goulet, M.-A. and Kjeang, E., Co-laminar flow cells for electrochemical energy conversion, Journal of Power Sources, 2014, 260: 186-196.

22. Khorasany, R.M.H., Goulet, M.-A., Sadeghi Alavijeh, A., Kjeang, E., Wang, G.G. and Rajapakse, R.K.N.D., On the Constitutive Relations for Catalyst Coated Membrane Applied to In-Situ Fuel Cell Modeling, Journal of Power Sources, 2014, 252: 176-188.

23. Lee, J.W., Goulet, M.-A. and Kjeang, E., Microfluidic Redox Battery, Lab on a Chip, 2013, 13: 2504-2507.

24. Goulet, M.-A., Khorasany, R.M.H., De Torres, C., Lauritzen, M., Kjeang, E., Wang, G.G. and Rajapakse, R.K.N.D., Mechanical Properties of Catalyst Coated Membranes for PEM Fuel Cells, Journal of Power Sources, 2013, 234: 38-47.