Julia Wellmann
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View article: Regulating Solvent Co‐Intercalation in Bi‐Layered Vanadium Oxides for Zinc Batteries by Nanoconfinement Chemistry
Regulating Solvent Co‐Intercalation in Bi‐Layered Vanadium Oxides for Zinc Batteries by Nanoconfinement Chemistry Open
Electrochemical intercalation typically involves ion desolvation at the electrolyte–electrode interface, incurring kinetic limitations and strong ion‐host interactions. The emerging mechanism of solvent co‐intercalation, where ions interca…
View article: Regulating Solvent Co‐Intercalation in Bi‐Layered Vanadium Oxides for Zinc Batteries by Nanoconfinement Chemistry
Regulating Solvent Co‐Intercalation in Bi‐Layered Vanadium Oxides for Zinc Batteries by Nanoconfinement Chemistry Open
Electrochemical intercalation typically involves ion desolvation at the electrolyte–electrode interface, incurring kinetic limitations and strong ion‐host interactions. The emerging mechanism of solvent co‐intercalation, where ions interca…
View article: Regulating Solvent Co-Intercalation in Bi-Layered Vanadium Oxides for Zinc Batteries by Nanoconfinement Chemistry
Regulating Solvent Co-Intercalation in Bi-Layered Vanadium Oxides for Zinc Batteries by Nanoconfinement Chemistry Open
Electrochemical intercalation typically involves ion desolvation at the electrolyte-electrode interface, incurring kinetic limitations and strong ion-host interactions. The emerging mechanism of solvent co-intercalation, where ions interca…
View article: Tailoring the Solid Electrolyte Interphase Composition on Lithium Metal Anodes by the Choice of Ionic Liquid during Mechanochemical Modification
Tailoring the Solid Electrolyte Interphase Composition on Lithium Metal Anodes by the Choice of Ionic Liquid during Mechanochemical Modification Open
Lithium metal batteries (LMBs) have a great potential to become widely commercialized. However, an improved solid electrolyte interphase (SEI) is needed to enable safe long‐term cycling. Here, further a mechanochemical modification method …
View article: Effective Solid Electrolyte Interphase Formation on Lithium Metal Anodes by Mechanochemical Modification
Effective Solid Electrolyte Interphase Formation on Lithium Metal Anodes by Mechanochemical Modification Open
Lithium metal batteries are gaining increasing attention due to their potential for significantly higher theoretical energy density than conventional lithium ion batteries. Here, we present a novel mechanochemical modification method for l…
View article: Ionic Liquids and their Polymers in Lithium‐Sulfur Batteries
Ionic Liquids and their Polymers in Lithium‐Sulfur Batteries Open
Future optimized lithium‐sulfur batteries may promise higher energy densities than the current standard. However, there are many barriers which hinder their commercialization. In this review we describe how ionic liquids (ILs) and their po…