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1.
Corrosion of aluminum current collector in cost effective rechargeable lithium-ion batteries
by Li, Shengyi, Ph.D.  The University of Wisconsin - Milwaukee. 2016: 178 pages; 10250372.
2.
Theoretical analysis of stress generation and volume change in lithium ion and lithium thermal batteries
by Renganathan, Sindhuja, Ph.D.  University of South Carolina. 2010: 198 pages; 3402858.
4.
New Materials for Lithium-Ion Batteries
by Fl├ąten Andersen, Hanne, Ph.D.  Bayerische Julius-Maximilians-Universitaet Wuerzburg (Germany). 2014: 168 pages; 27766711.
5.
In Operando Strain Evolution in Alloying Anodes for Lithium Ion Batteries: An X-ray Diffraction Study
by Glazer, Matthew Peter Biskind, Ph.D.  Northwestern University. 2015: 392 pages; 3741434.
6.
Sp3 boron single ion electrolytes for lithium ion battery application
by Guodong, Xu, Ph.D.  National University of Singapore (Singapore). 2015: 138 pages; 10006109.
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Advanced Electrolytes for Lithium Batteries with High Safety and Performance
by Liu, Boyang, Ph.D.  University of Maryland, College Park. 2018: 137 pages; 10982487.
9.
Lithium-Ion Battery Degradation Evaluation through Bayesian Network Method for Residential Energy Storage Systems
by Khan, Khalid, Ph.D.  Michigan Technological University. 2019: 172 pages; 27668394.
11.
Development of a Green Soft Chemical Method for the Synthesis of Cathode Materials Utilized in Lithium-ion Energy Storage Technologies
by Wicker, Scott Ambrose, Ph.D.  Southern University and Agricultural and Mechanical College. 2011: 167 pages; 3487688.
12.
Lithium-Ion Battery SOC Estimation Using Deep Learning Neural Networks
by Wang, Rui, M.S.  Rutgers The State University of New Jersey, School of Graduate Studies. 2019: 55 pages; 22624788.
14.
Model-Based Condition Monitoring and Power Management for Rechargeable Electrochemical Batteries
by Kim, Taesic, Ph.D.  The University of Nebraska - Lincoln. 2015: 213 pages; 3700290.
15.
Molecular Level Modeling of Batteries
by Basu, Swastik, Ph.D.  Rensselaer Polytechnic Institute. 2019: 135 pages; 22622155.
16.
Continuum-Scale Lithium-Ion Battery Cell Model in FEniCS
by Macklen, Christopher, M.Eng.  University of Colorado Colorado Springs. 2019: 180 pages; 27668548.
18.
Validation and insight into a novel packed-bed electrode flow battery architecture
by Sawyer, Bryan Dustin, Ph.D.  University of Missouri - Columbia. 2010: 115 pages; 3488938.
19.
Static Optimization of Fuel Cell Plug-In Hybrid Electric Vehicle
by Balogun, Sunday Julius, M.S.  Northern Illinois University. 2018: 246 pages; 10978070.
20.
A Multimodal Approach to Materials Design for Next Generation Energy Storage Systems
by Abraham, Alyson, Ph.D.  State University of New York at Stony Brook. 2020: 175 pages; 27964301.
21.
Design and Synthesis of Functional Nanomaterials Via Direct CO2 Utilization for Electrochemical Energy Storage
by Cha, Younghwan, Ph.D.  Washington State University. 2020: 204 pages; 27836250.
22.
Sustainable Manufacturing of Carbon Nanomaterials for Energy Storage Applications
by Douglas, Anna, Ph.D.  Vanderbilt University. 2019: 152 pages; 13811088.
23.
A General Method for Sizing Battery Energy Storage Systems for Use in Mitigating Photovoltaic Flicker
by Wills, William Noah, M.S.  University of Missouri - Columbia. 2017: 49 pages; 13850758.
24.
Room Temperature Sulfur Battery Cathode Design and Processing Techniques
by Carter, Rachel, Ph.D.  Vanderbilt University. 2017: 176 pages; 10753374.
26.
Nano-engineering of densely packed electrochemical energy storage architectures by atomic layer deposition
by Liu, Chanyuan, Ph.D.  University of Maryland, College Park. 2016: 113 pages; 10161058.
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28.
In situ XAS of Molybdenum Dichalcogenides as Li-Ion Battery Anodes
by Beaver, Nathaniel Morck, M.S.  Illinois Institute of Technology. 2017: 54 pages; 10680750.
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Solid state nuclear magnetic resonance investigations of advanced energy materials
by Bennett, George D., Ph.D.  City University of New York. 2009: 115 pages; 3369199.
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