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A reality check and tutorial on electrochemical characterization of battery cell materials: How to choose the appropriate cell setup
The ever-increasing demand for electrical energy storage technologies triggered by the
demands for consumer electronics, stationary energy storage systems and especially the …
demands for consumer electronics, stationary energy storage systems and especially the …
Guiding the design of heterogeneous electrode microstructures for Li‐ion batteries: microscopic imaging, predictive modeling, and machine learning
Electrochemical and mechanical properties of lithium‐ion battery materials are heavily
dependent on their 3D microstructure characteristics. A quantitative understanding of the …
dependent on their 3D microstructure characteristics. A quantitative understanding of the …
A gradient oxy-thiophosphate-coated Ni-rich layered oxide cathode for stable all-solid-state Li-ion batteries
High-energy Ni-rich layered oxide cathode materials such as LiNi0. 8Mn0. 1Co0. 1O2
(NMC811) suffer from detrimental side reactions and interfacial structural instability when …
(NMC811) suffer from detrimental side reactions and interfacial structural instability when …
Electrolytes, additives and binders for NMC cathodes in Li-Ion batteries—a review
Among the current battery technologies, lithium-ion batteries (LIBs) are essential in sha**
future energy landscapes in stationary storage and e-mobility. Among all components …
future energy landscapes in stationary storage and e-mobility. Among all components …
Stabilizing lithium metal anode by octaphenyl polyoxyethylene-lithium complexation
Lithium metal is an ideal anode for lithium batteries due to its low electrochemical potential
and high theoretical capacity. However, safety issues arising from lithium dendrite growth …
and high theoretical capacity. However, safety issues arising from lithium dendrite growth …
Understanding ageing in Li-ion batteries: a chemical issue
MR Palacín - Chemical Society Reviews, 2018 - pubs.rsc.org
Performance degradation over Li-ion battery lifetime is unavoidable and ultimately rooted in
chemical processes. Their extent is mostly determined by battery material components and …
chemical processes. Their extent is mostly determined by battery material components and …
A guide to full coin cell making for academic researchers
The development of new positive electrode materials is on route to increase the energy
density of lithium-ion batteries (LIBs) for electric vehicle and grid storage applications. The …
density of lithium-ion batteries (LIBs) for electric vehicle and grid storage applications. The …
Cycle-Induced Interfacial Degradation and Transition-Metal Cross-Over in LiNi0.8Mn0.1Co0.1O2–Graphite Cells
Ni-rich lithium nickel manganese cobalt (NMC) oxide cathode materials promise Li-ion
batteries with increased energy density and lower cost. However, higher Ni content is …
batteries with increased energy density and lower cost. However, higher Ni content is …
Local degradation and differential voltage analysis of aged lithium-ion pouch cells
J Sieg, M Storch, J Fath, A Nuhic, J Bandlow… - Journal of Energy …, 2020 - Elsevier
Abstract Knowledge of the underlying degradation mechanisms in a lithium-ion cell is crucial
for the development process and control of automotive lithium-ion battery packs. In this …
for the development process and control of automotive lithium-ion battery packs. In this …
Understanding the Roles of Tris(trimethylsilyl) Phosphite (TMSPi) in LiNi0.8Mn0.1Co0.1O2 (NMC811)/Silicon–Graphite (Si–Gr) Lithium‐Ion Batteries
The coupling of nickel‐rich LiNi0. 8Mn0. 1Co0. 1O2 (NMC811) cathodes with high‐capacity
silicon–graphite (Si–Gr) anodes is one promising route to further increase the energy …
silicon–graphite (Si–Gr) anodes is one promising route to further increase the energy …