Juri Becker
YOU?
Author Swipe
View article: Purity of lithium metal electrode and its impact on lithium stripping in solid-state batteries
Purity of lithium metal electrode and its impact on lithium stripping in solid-state batteries Open
Recent studies emphasize that incorporating lithium metal electrodes can increase the energy density of next generation batteries. However, the production of lithium metal with high purity requires multi-stage purification steps due to its…
View article: Microstructure of Lithium Metal Electrodeposited at the Steel|Li<sub>6</sub>PS<sub>5</sub>Cl Interface in “Anode‐Free” Solid‐State Batteries
Microstructure of Lithium Metal Electrodeposited at the Steel|Li<sub>6</sub>PS<sub>5</sub>Cl Interface in “Anode‐Free” Solid‐State Batteries Open
Recent research shows that integrating lithium metal anodes can enhance battery energy density, but the high reactivity of lithium requires handling under inert conditions to avoid degradation. To overcome this, reservoir‐free cells (RFCs)…
View article: Imaging the microstructure of lithium and sodium metal in anode-free solid-state batteries using electron backscatter diffraction
Imaging the microstructure of lithium and sodium metal in anode-free solid-state batteries using electron backscatter diffraction Open
‘Anode-free’ or, more fittingly, metal reservoir-free cells could drastically improve current solid-state battery technology by achieving higher energy density, improving safety and simplifying manufacturing. Various strategies have been r…
View article: Imaging the Microstructure of Lithium and Sodium Metal in “Anode-Free” Solid-State Batteries using EBSD
Imaging the Microstructure of Lithium and Sodium Metal in “Anode-Free” Solid-State Batteries using EBSD Open
“Anode-free” or more fittingly, metal reservoir-free cells (RFCs) have the potential of drastically improving current solid-state battery technology by achieving higher energy density, improving safety and simplifying the manufacturing pro…
View article: Operando Photoelectron Spectroscopy Analysis of Li6PS5Cl Electrochemical Decomposition Reactions in Solid-State Batteries
Operando Photoelectron Spectroscopy Analysis of Li6PS5Cl Electrochemical Decomposition Reactions in Solid-State Batteries Open
Most solid electrolytes (SEs) which are promising for all-solid-state battery (ASSB) applications are known to have a narrow electrochemical stability window. Consequently, parasitic electrolyte reactions are observed when high-energy-dens…
View article: Current‐Dependent Lithium Metal Growth Modes in “Anode‐Free” Solid‐State Batteries at the Cu|LLZO Interface
Current‐Dependent Lithium Metal Growth Modes in “Anode‐Free” Solid‐State Batteries at the Cu|LLZO Interface Open
Controlling the lithium growth morphology in lithium reservoir‐free cells (RFCs), so‐called “anode‐free” solid‐state batteries, is of key interest to ensure stable battery operation. Despite several benefits of RFCs like improved energy de…