Demarcating the Impact of Electrolytes on High‐Nickel Cathodes and Lithium‐Metal Anode
The ever‐growing demand for low‐cost, high‐energy‐density lithium‐ion batteries (LIBs)
makes high‐nickel layered oxide cathodes, especially LiNiO2 (LNO), one of the most …
makes high‐nickel layered oxide cathodes, especially LiNiO2 (LNO), one of the most …
Symmetric cells as an analytical tool for battery research: assembly, operation, and data analysis strategies
Z Yan - Journal of The Electrochemical Society, 2023 - iopscience.iop.org
The demand for a better battery in the aspect of performance, cost, and scalability has
significantly driven the development of new electrode chemistries. The electrochemical …
significantly driven the development of new electrode chemistries. The electrochemical …
Quantitative failure analysis of lithium-ion batteries based on direct current internal resistance decomposition model
R Xu, X Li, S Tang, Z Wang, H Guo, W Peng, D Wang… - Applied Energy, 2024 - Elsevier
Accurate failure analysis plays a pivotal role in the optimization design and lifetime
prediction of 4.45 V high-voltage LiCoO 2/Graphite (LCO/Gr) batteries. Multiphysics coupling …
prediction of 4.45 V high-voltage LiCoO 2/Graphite (LCO/Gr) batteries. Multiphysics coupling …
Catalyzing Battery Materials Research via Lab‐Made, Sub‐Ampere‐Hour‐Scale Pouch Cells, and Long‐Term Electrochemical Monitoring by a Reparable Reference …
Y Wang, Z Li, X Li, ZF Ma, L Li - Advanced Energy Materials, 2024 - Wiley Online Library
Battery materials research is of crucial importance to the development of next‐generation
batteries. However, the transition from lab‐scale studies, typically in gram quantities, to …
batteries. However, the transition from lab‐scale studies, typically in gram quantities, to …
In Situ Electron Paramagnetic Resonance Monitoring of Predegradation Radical Generation in a Lithium Electrolyte
R Kukeva, M Kalapsazova, H Rasheev… - The Journal of …, 2023 - ACS Publications
Herein we present an innovative in situ EPR spectroscopy approach complemented with
computational modeling as a methodology for assessing a nonaqueous electrolyte behavior …
computational modeling as a methodology for assessing a nonaqueous electrolyte behavior …
Delineating the interfacial interactions and gas evolution in low-cobalt, high-energy density lithium-based batteries
R Sim - 2023 - repositories.lib.utexas.edu
Layered oxides (LiNi₁₋[subscript x] M [subscript x] O₂; M= Co, Mn, Al) are promising
cathode materials that can achieve key performance metrics with their high energy densities …
cathode materials that can achieve key performance metrics with their high energy densities …
Impact of TMSB/VC Additives for Li Metal Batteries Containing Ni-Rich NMC Cathode
Z Zhao - 2024 - search.proquest.com
Develo** additives for nickel-rich NMC (Nickel Manganese Cobalt) batteries is crucial to
enhance their performance and longevity. Additives can improve the stability of the …
enhance their performance and longevity. Additives can improve the stability of the …
Quantitatively Analyzing the Failure Processes of 4.45 V High-Voltage Licoo2/Graphite Battery by Constructing the Direct Current Internal Resistance Decomposition …
R Xu, X Li, S Tang, Z Wang, H Guo, W Peng… - Available at SSRN … - papers.ssrn.com
Accurate failure analysis play a pivotal role in the optimization design and lifetime prediction
of 4.45 V high-voltage LiCoO2/Graphite (LCO/Gr) batteries. Multiphysics coupling brings …
of 4.45 V high-voltage LiCoO2/Graphite (LCO/Gr) batteries. Multiphysics coupling brings …
Elucidating the Degradation Mechanisms of Nickel-Rich Layered Oxide Cathodes for Lithium-Ion Batteries
S Oswald - 2023 - mediatum.ub.tum.de
The degradation mechanisms of nickel-rich layered oxides, used as cathode active
materials in lithium-ion batteries, are investigated combining surface area determination by …
materials in lithium-ion batteries, are investigated combining surface area determination by …
[CITAS][C] Achieving Lithium-Ion Cells with Improved Performance and Lifetime
C Aiken - 2023