Dry Battery Electrode Technology: From Early Concepts to Industrial Applications DOI Creative Commons
Benjamin Schumm, Arthur Dupuy,

Milena Lux

et al.

Advanced Energy Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 6, 2025

Abstract The increasing demand for clean and efficient energy storage makes the environmentally friendly cost‐effective production of lithium‐ion batteries a focal point in current battery research development. Dry electrode (DBE) coatings play crucial role future schemes as this technique does not require use toxic solvents energy‐intensive drying steps. This review article focuses on most advanced DBE method today, based fibrillated polytetrafluoroethylene (PTFE) binder. PTFE‐based are suitable both laboratory scale mass production, which places them prominent position among methods. covers historical development process well field (LIB) next‐generation such lithium–sulfur (LSB) solid‐state (SSB). Both suitability existing drawbacks dry these cell types discussed. also provides insights into describes approaches scaling method. Characteristic features differences important methods, DRYtraec Maxwell‐process, outlined. Finally, challenges commercializing technology discussed, an outlook PTFE‐alternative binders is given.

Language: Английский

Innovative Z-Scheme MnV₂O₆/g-C₃N₄ Nanocomposite: Photocatalytic, Electrocatalytic and Biosensing Properties DOI
Muhammad Danish Khan, Masood ul Hassan Farooq,

Iqra Fareed

et al.

Materials Chemistry and Physics, Journal Year: 2024, Volume and Issue: 330, P. 130159 - 130159

Published: Nov. 16, 2024

Language: Английский

Citations

4
Dry Battery Electrode Technology: From Early Concepts to Industrial Applications DOI Creative Commons
Benjamin Schumm, Arthur Dupuy,

Milena Lux

et al.

Advanced Energy Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 6, 2025

Abstract The increasing demand for clean and efficient energy storage makes the environmentally friendly cost‐effective production of lithium‐ion batteries a focal point in current battery research development. Dry electrode (DBE) coatings play crucial role future schemes as this technique does not require use toxic solvents energy‐intensive drying steps. This review article focuses on most advanced DBE method today, based fibrillated polytetrafluoroethylene (PTFE) binder. PTFE‐based are suitable both laboratory scale mass production, which places them prominent position among methods. covers historical development process well field (LIB) next‐generation such lithium–sulfur (LSB) solid‐state (SSB). Both suitability existing drawbacks dry these cell types discussed. also provides insights into describes approaches scaling method. Characteristic features differences important methods, DRYtraec Maxwell‐process, outlined. Finally, challenges commercializing technology discussed, an outlook PTFE‐alternative binders is given.

Language: Английский

Citations

0