The rapid shift towards electric vehicles (EVs) demands effective end-of-life strategies for
lithium-ion batteries (LIBs), necessitating examining recycling methodologies, particularly …

Sodium-ion batteries (SIBs) have been considered as promising candidates for large scale
energy storage systems due to the great abundance of sodium resources. For sodium …

Lithium-ion battery anodes were produced and tested using gelatin and sodium alginate
(NaAlg) biopolymers, modified with a deep eutectic solvent (DES). Anodes created with …

Demand for electronic products is growing, as is the volume of waste electrical and
electronic equipment (WEEE). To reduce their environmental impact, particularly during their …

During the recovery of spent lithium-ion batteries, the strip** process plays a critical role in
determining the extent of cathode active materials (CAMs) recovery. However, traditional …

With various battery directives necessitating the composition of recycled electrode materials
this study manufactures anodes containing various ratios of pristine and reclaimed graphite …

This paper provides sustainable solutions for the urban mining of end-of-life (EOL) batteries
and highlights their significant role in advancing the circular economy. Influenced by …

Smart cities have an essential role in fostering social, environmental, and economic
sustainable advancements. By promoting high-technology and digital solutions, they have …

Amidst increasing environmental concerns, the transport sector is undergoing a substantial
transformation leading to a larger market share of electric vehicles and, in turn, a growing …

To improve sustainability of lithium-ion battery electrodes there is a need to design in
recycling at the manufacturing stage. In this work, a method to improve LiFePO4 recovery …