Martine Jacob
YOU?
Author Swipe
View article: Revisiting the Hydration and Dehydration Behavior of Li3InCl6 and Li3InCl6·xH2O: Crystal Structure Determination of the Intermediate Hydrated Phase
Revisiting the Hydration and Dehydration Behavior of Li3InCl6 and Li3InCl6·xH2O: Crystal Structure Determination of the Intermediate Hydrated Phase Open
Lithium indium chloride, Li3InCl6, is a promising solid-state electrolyte for all-solid-state batteries (ASSBs) due to its high room-temperature ionic conductivity and electrochemical stability. However, its sensitivity to atmospheric mois…
View article: Direct Recycling of All‐Solid‐State Batteries with a Halide Solid Electrolyte via Water‐Based Separation: Interactions of Electrode Materials in Aqueous Li <sub>3</sub> InCl <sub>6</sub> Solutions
Direct Recycling of All‐Solid‐State Batteries with a Halide Solid Electrolyte via Water‐Based Separation: Interactions of Electrode Materials in Aqueous Li <sub>3</sub> InCl <sub>6</sub> Solutions Open
Despite extensive research in the field of all‐solid‐state batteries, there has been limited attention to their recycling, which is crucial for achieving long‐term sustainability. Different electrolyte and electrode combinations must be co…
View article: Direct Recycling of All-Solid-State Batteries with a Halide Solid Electrolyte via Water-based Separation: Interactions of Electrode Materials in Aqueous Li3InCl6 Solutions
Direct Recycling of All-Solid-State Batteries with a Halide Solid Electrolyte via Water-based Separation: Interactions of Electrode Materials in Aqueous Li3InCl6 Solutions Open
Despite extensive research in the field of all-solid-state batteries, there has been limited attention to their recycling, which is crucial for achieving long-term sustainability. Different electrolyte and electrode combinations must be co…
View article: Towards Recycling of All‐Solid‐State Batteries with Argyrodite Sulfide Electrolytes: Insights into Electrolyte and Electrode Degradation in Dissolution‐Based Separation Processes
Towards Recycling of All‐Solid‐State Batteries with Argyrodite Sulfide Electrolytes: Insights into Electrolyte and Electrode Degradation in Dissolution‐Based Separation Processes Open
All‐solid‐state Li‐ion batteries (ASSBs) represent a promising leap forward in battery technology, rapidly advancing in development. Among the various solid electrolytes, argyrodite thiophosphates Li 6 PS 5 X (X=Cl, Br, I) stand out due to…
View article: Recycling of solid-state batteries—challenge and opportunity for a circular economy?
Recycling of solid-state batteries—challenge and opportunity for a circular economy? Open
The tremendous efforts made in the research field of solid-state Li-ion batteries have led to considerable advancement of this technology and the first market-ready systems can be expected in the near future. The research community is curr…
View article: Cover Feature: Recycling of All‐Solid‐State Li‐ion Batteries: A Case Study of the Separation of Individual Components Within a System Composed of LTO, LLZTO and NMC (ChemSusChem 13/2023)
Cover Feature: Recycling of All‐Solid‐State Li‐ion Batteries: A Case Study of the Separation of Individual Components Within a System Composed of LTO, LLZTO and NMC (ChemSusChem 13/2023) Open
The Cover Feature illustrates the problems arising from the finite lifetime of a battery and the challenge to reanimate it for a second life by means of a recycling process. It shows that dead solid-state batteries could be resurrected aft…
View article: Recycling of All‐Solid‐State Li‐ion Batteries: A Case Study of the Separation of Individual Components Within a System Composed of LTO, LLZTO and NMC**
Recycling of All‐Solid‐State Li‐ion Batteries: A Case Study of the Separation of Individual Components Within a System Composed of LTO, LLZTO and NMC** Open
With the current global projection of over 130 million electric vehicles (EVs), there soon will be a need for battery waste management. Especially for all‐solid‐state lithium‐ion batteries (lithium ASSBs), aspects of waste management and c…
View article: Recycling of All-Solid-State Li-ion Batteries: A Case Study of the Separation of Individual Components Within a System Composed of LTO, LLZTO, and NMC
Recycling of All-Solid-State Li-ion Batteries: A Case Study of the Separation of Individual Components Within a System Composed of LTO, LLZTO, and NMC Open
All solid-state lithium-ion batteries (lithium ASSBs) are promising candidates for their use in high energy density applications like electric vehicles (EVs). With the current global projections of over 130 million EVs on road by 2030, the…
View article: Towards Recycling of LLZO Solid Electrolyte Exemplarily Performed on LFP/LLZO/LTO Cells**
Towards Recycling of LLZO Solid Electrolyte Exemplarily Performed on LFP/LLZO/LTO Cells** Open
All‐solid‐state lithium ion batteries (ASS‐LIBs) are promising due to their safety and higher energy density as compared to that of conventional LIBs. Over the next few decades, tremendous amounts of spent ASS‐LIBs will reach the end of th…