Radenka Maric
President, University of Connecticut
Professor
Department of Materials Science and Engineering
Education
Ph.D., University of Kyoto, Japan (1996)
Research Focus
- Fuel cells and batteries
- Hydrogen generation
- Nanomaterials and thin film coating
- Ceramic processing
- Gasification and biofuels
Awards
- Fulbright Chair Professor 2016-2017, Politecnico di Milano, Italy 2017
- National Academy of Inventors, Honorary Member, 2017
- Women of Innovation, Connecticut Technology Council, Winner in Research Category, 2015
- Women of Innovation, Connecticut Technology Council, Finalist in Research Category, 2013, 2014
- Connecticut Quality Improvement Award, Platinum CQIA, Innovation Prize, 2014
- Elected Member of the Connecticut Academy of Science and Engineering, 2012
- Japan Organization for Promotion of Science, Fellowship, 2012
- Visiting Professor, Tokyo University of Science, Fall 2012
- Innovation Award, National Research Council of Canada, 2009
- Leadership Award, National Research Council of Canada, 2006, 2007 and 2008
- Selected to the National Academy of Engineering 9th Annual Frontiers of Engineering Symposium (September 2003 Irvine, CA) that brings together leading young engineers nominated by fellow engineers
- Best Young Woman Scientist Award, Japan 1996
- Outstanding Young Scientist, Sankai Shinbun Award, Japan 1995
- Best Faculty Paper Award, Kyoto University, Japan, 1999
Publications
Moon, K-S., Dong, H., Maric, R., Pothukuchi, S., Hunt, A., Li, Y.I., Wong, C.P., Thermal behavior of silver nanoparticles for low-temperature interconnect applications, Journal of Electronic Materials (2005), 34(2), 168-175.
Hui, S.(R.), Roller, J., Yick, S., Zhang, X., Decès-Petit, C., Xie, Y., Maric, R., Ghosh, D., A brief review of the ionic conductivity enhancement for selected oxide electrolytes, Journal of Power Sources (2007), 172(2), 493-502.
Hui, R., Wang, Z., Kesler, O., Rose, L., Jankovic, J., Yick, S., Maric, R., Ghosh, D., Thermal plasma spraying for SOFCs: Applications, potential advantages, and challenges, Journal of Power Sources (2007), 170(2), 308-323.
Maric, R., Ohara, S., Fukui, T., Yoshida, H., Nishimura, M., Inagaki, T., Miura, K., Solid oxide fuel cells with doped lanthanum gallate electrolyte and LaSrCoO3 cathode, and Ni-samaria-doped ceria cermet anode, Journal of the Electrochemical Society, (1999), 146(6), 2006-2010.
Zhang, X., Robertson, M., Deĉes-Petit, C., Qu, W., Kesler, O., Maric, R., Ghosh, D., Internal shorting and fuel loss of a low temperature solid oxide fuel cell with SDC electrolyte, Journal of Power Sources (2007), 164(2), 668-677.
Zhang, X., Robertson, M., Yick, S., Deĉes-Petit, C., Styles, E., Qu, W., Xie, Y., Hui, R., Roller, J., Kesler, O., Maric, R., Ghosh, D., Sm0.5Sr0.5CoO3 + Sm0.2Ce0.8O1.9 composite cathode for cermet supported thin Sm0.2Ce0.8O1.9 electrolyte SOFC operating below 600 °C, Journal of Power Sources (2006), 160(2), 1211-1216.
Zhang, X., Ohara, S., Maric, R., Mukai, K., Fukui, T., Yoshida, H., Nishimura, M., Inagaki, T., Miura, K., Ni-SDC cermet anode for medium-temperature solid oxide fuel cell with lanthanum gallate electrolyte, Journal of Power Sources (1999), 83(1-2), 170-177.
Hui, S.(R.), Yang, D., Wang, Z., Yick, S., Decès-Petit, C., Qu, W., Tuck, A., Maric, R., Ghosh, D., Metal-supported solid oxide fuel cell operated at 400-600 °C, Journal of Power Sources (2007), 167(2), 336-339.
Zhang, X., Ohara, S., Maric, R., Okawa, H., Fukui, T., Yoshida, H., Inagaki, T., Miura, K., Interface reactions in the NiO-SDC-LSGM system, Solid State Ionics (2000), 133(3), 153-160.
Zhang, X., Ohara, S., Okawa, H., Maric, R., Fukui, T., Interactions of a La0.9Sr0.1Ga0.8Mg0.2O3-δ electrolyte with Fe2O3, Co2O3 and NiO anode materials, Solid State Ionics (2001), 139(1-2), 145-152.
Roller J. , Arellano-Jiméneza J., Yu H. , Carter C.B., and Maric R., Catalyst nanoscale assembly from the vapor phase on corrosion resistant supports”, Electrochimica Acta , 107, pp. 632– 655, (2013).
Roller J. , Arellano-Jiméneza J. , Jain R. , Yu H. , Carter C.B., and Maric R., “Oxygen evolution during water electrolysis from thin films using bimetallic oxides of Ir-Pt and Ir-Ru”,J. Electrochem. Soc. 160 (6), F716-F730, (2013).
Roller J. , Arellano-Jiméneza J. , Jain R. , Yu H. , Maric R., and Carter C.B., Processing, Activity and Microstructure of Oxygen Evolution Anodes Prepared by a Dry and Direct Deposition Technique, ECS Trans., 38(1), pp. 223-229, (2013).
Roller, J., Orfino, F., Neagu, R., Maric, R., “Supported and unsupported platinum catalysts prepared by the one-step Reactive Spray Deposition Technology (RSDT) method and their oxygen reduction reactivity in acidic media”, J. Mater. Sci., 47(11), pp. 4604-4601, (2012).
Maric, R., Roller, J., Neagu, R., ”Flame-based technologies and reactive spray deposition technology for low temperature solid oxide fuel cell”, Journal of Thermal Spray Technology, 20 (4), pp. 696-718, (2011).
R. Maric, K. Furusaki. D. Nishijima, R. Neagu, Thin Film Low Temperature Solid Oxide Fuel Cell (LTSOFC) by Reactive Spray Deposition Technology, RSDT, ECS Trans., 35(1), pp. 473-481, (2011).
Nédélec, R., Neagu, R., Uhlenbruck, S., Maric, R., Sebold, D., Buchkremer, H.-P., Stöver, D., “Gas phase deposition of diffusion barriers for metal substrates in solid oxide fuel cells” Surface and Coatings Technology, 205 (16), pp. 3999-4004, (2011).
Maric, R., Neagu, R., Zhang-Steenwinkel, Y., Van Berkel, F.P.F., Rietveld, B. “Reactive spray deposition technology – An one-step deposition technique for solid oxide fuel cell barrier layers”, Journal of Power Sources, 195 (24), pp. 8198-8201, (2010).
Hui, R., Sun, C., Yick, S., Decès-Petit, C., Zhang, X., Maric, R., Ghosh, D. “Ba1-xPrxCo1-yFeyO3-x as cathode materials for low temperature solid oxide fuel cells”, Electrochimica Acta, 55 (16), pp. 4772-4775 (2010). Impact Factor:3.642
T. Troczynski, and R. Maric, “Characterization of porous stainless steel 430 for low temperature SOFC substratesECS Transaction 26(1) pp.357-362, (2010).
radenka.maric@uconn.edu | |
Phone | 860-486-1450 |
Mailing Address | 352 Mansfield Road, Unit 1048 Storrs, CT 06269-1048 |
Office Location | Gulley Hall |
Campus | Storrs |
Link | https://president.uconn.edu/ |