Overview
Personal Profile
Robert Tenent came to NLR in late 2007 after spending five years with ZettaCore, Inc., a venture-backed company focused on integrating electrochemical charge storage into memory devices. Dr. Tenent was the company's initial technical hire and successfully led several efforts that moved company technologies from academic laboratories into large-scale semiconductor fabrication facilities. While Dr. Tenent maintains solid industry/business relationships, he also has a strong interest in fundamental issues regarding new materials for improved electrochemical devices, in particular electrochromic windows and lithium ion batteries. At NLR, Dr. Tenent's research has focused on development of cost-effective, manufacturing friendly methods for the production of materials for both energy generation (PV) and efficiency (smart windows).
Robert Tenent received his Ph.D. in Chemistry with a specialization in Electrochemistry from Mississippi State University in 2000 under the direction of Dr. David Wipf. His doctoral work focused on modification and characterization of carbon electrode surfaces using electrochemical microscopy techniques. He then performed postdoctoral work at North Carolina State University prior to joining ZettaCore, Inc.
Research Interests
New Materials Design and Integration for Electrochromic Devices and Li-ion Batteries
Gel/Solid Electrolyte Materials Development
Novel Materials for Energy Efficiency Applications
Electrochemical Probe Microscopy
Nanomaterials Characterization
Education/Academic Qualification
PhD, Chemistry, Mississippi State University
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Collaborations and Top Research Areas From the Past 5 Years
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In Situ Characterization of the Oxidation Behavior of Carbonate-Based Electrolytes for Lithium-Ion Batteries by Scanning Electrochemical Microscopy
He, R., McDonough, L., Seitz, L., Ou, W., Marks, S., Ferreira de Menezes, R., Allan-Cole, E., Luo, H., Toney, M., Sprenger, K., Zhou, M. & Tenent, R., 2025, In: ACS Electrochemistry. 1, 4, p. 494-503 10 p.Research output: Contribution to journal › Article › peer-review
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LiNi0.8Mn0.1Co0.1O2 Thin Films Prepared by Polymer-Assisted Deposition for the Study of Cathode-Electrolyte Interphases in Lithium-Ion Batteries
Ou, W., He, R., Arstingstall, R., Marks, S., Oliphant, B., Luo, H., Zhou, M., Medlin, J., Tenent, R. & Toney, M., 2025, In: ACS Applied Energy Materials. 8, 15, p. 11561-11569 9 p.Research output: Contribution to journal › Article › peer-review
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Unveiling the Mechanism of Mn Dissolution Through a Dynamic Cathode-Electrolyte Interphase on LiMn2O4: Article No. 2404652
Ou, W., Marks, S., Ferreira de Menezes, R., He, R., Zhang, Z., Sindt, C., Thurston, J., Jaye, C., Cowie, B., Thomsen, L., Zhuo, Z., Guo, J., Yang, W., Dong, Z., Tenent, R., Sprenger, K. & Toney, M., 2025, In: Advanced Energy Materials. 15, 22, 11 p.Research output: Contribution to journal › Article › peer-review
21 Scopus Citations -
Ambient Energy for Buildings: Beyond Energy Efficiency: Article No. 100076
Adua, L., Asamoah, A., Barrow, J., Brookstein, P., Chen, B., Coleman, D., Denzer, A., Desjarlais, A., Falconer, W., Fernandes, L., Fisler, D., Foley, C., Gaillard, C., Gladen, A., Goswami, Y., Guzowski, M., Hamilton, B., Hill, T., Hun, D. & Kar, B. & 22 others, , 2024, In: Solar Compass. 11, 24 p.Research output: Contribution to journal › Article › peer-review
13 Scopus Citations -
Assessing Cathode-Electrolyte Interphases in Batteries
Xiao, J., Adelstein, N., Bi, Y., Bian, W., Cabana, J., Cobb, C., Cui, Y., Dillon, S., Doeff, M., Islam, S., Leung, K., Li, M., Lin, F., Liu, J., Luo, H., Marschilok, A., Meng, Y., Qi, Y., Sahore, R. & Sprenger, K. & 8 others, , 2024, In: Nature Energy. 9, 12, p. 1463-1473 11 p.Research output: Contribution to journal › Article › peer-review
105 Scopus Citations