Reed Wittman

Materials Scientist

(505) 681-4639

Biography

Reed earned his BSE in Material Science Engineering at Arizona State University in 2013. He then went on to complete a PhD in Energy Science and Engineering through the Bredesen Center, an interdisciplinary degree program centered on all aspects of energy, at the University Tennessee and Oak Ridge National Lab. His PhD dissertation focused on using materials and electrochemical methods to understand the fundamental processes at the Zinc (Zn) electrode of alkaline Zn batteries. After joining Sandia National Lab in 2019, he shifted focus to understanding fundamental aspects of safety and reliability of Lithium (Li)-ion and aqueous batteries. His current work includes materials and electrochemical characterization of Li-ion battery degradation mechanisms during long-term cycling, and fundamental origins of gas evolution in aqueous flow batteries.

Research Interests

Degradation mechanisms of Li-ion batteries
Gas evolution in aqueous batteries
Battery Safety and Reliability

Education

Ph.D. in Energy Science and Engineering, University of Tennessee (Knoxville, TN), 2019
B.SE. in Materials Science and Engineering, Arizona State University (Tempe, AZ), 2013

Google Scholar

Reed Wittman

Publications

Wittman, R.M., Bachman, W.B., Bachman, W.B., Anderson, T.M., Preger, Y., & Preger, Y. (2023). Quantifying Chlorine Gas Evolution from Mixed-Acid Vanadium Redox Flow Batteries: A Case Study on Aqueous Battery Safety [Conference Presenation]. https://doi.org/10.2172/2430372 Publication ID: 125296
Wittman, R.M., Fresquez, A.J., Rich, C.A., Chalamala, B.R., Preger, Y., & Preger, Y. (2023). Degradation of Li-ion Cells Beyond 80% Initial Capacity [Conference Presenation]. https://doi.org/10.2172/2430790 Publication ID: 126696
Wittman, R.M., Bachman, W.B., Bachman, W.B., Anderson, T.M., Preger, Y., & Preger, Y. (2023). Quantification of Chlorine Gas Generation in Mixed-Acid Vanadium Redox Flow Batteries. ACS Applied Energy Materials, 6(6), pp. 3167-3172. https://doi.org/10.1021/acsaem.2c03152 Publication ID: 106768
Wittman, R.M., Bachman, W.B., Bachman, W.B., Anderson, T.M., Preger, Y., & Preger, Y. (2022). Quantifying Chlorine Gas Evolution from Mixed-Acid Vanadium Redox Flow Batteries [Conference Presenation]. https://doi.org/10.2172/2006136 Publication ID: 121264
Wittman, R.M., Fresquez, A.J., Chalamala, B.R., Preger, Y., & Preger, Y. (2022). Update on systematic cycle aging of NMC and NCA 18650 Li-ion batteries [Conference Presenation]. https://doi.org/10.2172/2005366 Publication ID: 118912
Wittman, R.M. (2022). Quantifying Chlorine Gas Evolution from Mixed-Acid Vanadium Redox Flow Batteries [Conference Presenation]. https://doi.org/10.2172/2004847 Publication ID: 118212
Wittman, R.M., Fresquez, A.J., Chalamala, B.R., Preger, Y., & Preger, Y. (2022). Long Term Cycling of 18650 Li-ion Cells Beyond 80% Capacity [Conference Poster]. https://doi.org/10.2172/2004841 Publication ID: 118188
Wittman, R.M. (2022). A Brief Overview of Flow Battery Construction and Operational Considerations [Conference Presenation]. https://doi.org/10.2172/2003572 Publication ID: 113604
Wittman, R.M., Preger, Y., Fresquez, A.J., Chalamala, B.R., & Chalamala, B.R. (2022). Systematic Cycle and Calendar Aging of Commercial 18650 LFP Lithium-Ion Cells [Conference Presenation]. https://doi.org/10.2172/2003268 Publication ID: 112452
Wittman, R.M. (2022). Path Dependence of Li-Ion Battery Degradation During Cycling to 80% Capacity [Conference Presenation]. https://doi.org/10.2172/2003160 Publication ID: 112044
Chalamala, B.R., Preger, Y., Wittman, R.M., Bates, A.M., & Bates, A.M. (2022). Advances in Energy Storage Technologies [Conference Presenation]. https://doi.org/10.2172/2001732 Publication ID: 108016
Wittman, R.M., Fresquez, A.J., Chalamala, B.R., Preger, Y., & Preger, Y. (2021). Systematic Long-Term Cycling of 18650 Batteries Beyond 80% Capacity [Conference Presenation]. https://doi.org/10.2172/1890855 Publication ID: 76042
Wittman, R.M., Bachman, W.B., Anderson, T.M., Preger, Y., & Preger, Y. (2021). Gas Evolution from Mixed-AcidFlow Batteries [Conference Poster]. https://doi.org/10.2172/1893282 Publication ID: 76304
Wittman, R.M., Fresquez, A.J., Chalamala, B.R., Preger, Y., & Preger, Y. (2021). Cycling of Li-ion Batteries Beyond 80% Capacity [Conference Poster]. https://doi.org/10.2172/1893288 Publication ID: 76303
Wittman, R.M. (2021). Side by Side Comparison of Redox Flow and Li-ion Batteries [Conference Presenation]. https://doi.org/10.2172/1876722 Publication ID: 78968
Wittman, R.M. (2021). Comprehensive Electrochemical and Materials Characterization of Commercial Li-ion Battery Degradation [Conference Presenation]. https://doi.org/10.2172/1870274 Publication ID: 78600
Wittman, R.M. (2021). Gas Evolution from Mixed-Acid Vanadium Redox Flow Battery [Conference Presenation]. https://doi.org/10.2172/1870092 Publication ID: 78581
Wittman, R.M. (2021). Overview of Aqueous Battery Safety and Reliability Concerns [Conference Presenation]. https://doi.org/10.2172/1882055 Publication ID: 78179
Wittman, R.M., Preger, Y., Fresquez, A.J., Taggart, G.S., Chalamala, B.R., & Chalamala, B.R. (2020). Materials Degradation Trends from Systematic Long-Term Cycling of Commercial Li-Ion Batteries [Conference Presenation]. https://doi.org/10.2172/1831590 Publication ID: 71576
Preger, Y., Wittman, R.M., Fresquez, A.J., Torres-Castro, L., Lamb, J., & Lamb, J. (2020). Long-term Performance and Safety of Commercial Li-ion Cells [Conference Poster]. https://www.osti.gov/biblio/1821102 Publication ID: 74885
Wittman, R.M., Fresquez, A.J., Taggart, G.S., Chalamala, B.R., Preger, Y., & Preger, Y. (2020). Electrochemical and Materials Characterization of Li-ion Cells during Long Term Cycling [Conference Poster]. https://www.osti.gov/biblio/1821100 Publication ID: 74883
Wittman, R.M., Perry, M.L., Lambert, T.N., Chalamala, B.R., Preger, Y., & Preger, Y. (2020). Perspective—On the Need for Reliability and Safety Studies of Grid-Scale Aqueous Batteries. Journal of the Electrochemical Society (Online), 167(9). https://doi.org/10.1149/1945-7111/ab9406 Publication ID: 73554

Showing 10 of 22 publications.