Nagesh Manurkar scite author profile

Owing to the increasing pressure on the ecological effect of solid waste disposal and developing the need for disposal of the corresponding hazardous metals, recovery of spent lithium ion batteries (LIBs) has gain worldwide attention in recent years. Much work has been done in this regard in the past few decades, and several new, interesting, and unique methods have been developed to recycle the cathode, anode, and electrolyte. Therefore, time has come to summarize the highlights in this emerging area to facilitate young researchers. In this review, starting from the current market demand and commercial value of lithium ion batteries, we have summarized the most recent progress in the direction of recycling the cathode and anode materials and electrolyte. At the beginning, an overview of the recycling techniques is presented to grasp understanding of the topic. Later, laboratory and industrial investigations and implementation are reviewed with emphasis on anode (graphite) and electrolyte recovery. Life cycle assessment of end-of-life LIB recycling, limitations, and future efforts have also mentioned to focus on improving the efficiency of metal extraction and separation with the sustainable and systematic recycling of spent lithium ion batteries.

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Life Cycle Assessment of Lithium-ion Batteries: A Critical Review

Arshad

Lin

Manurkar

et al. 2022

Resources, Conservation and Recycling

141

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Thermotropic liquid crystalline polyesters derived from 2-chloro hydroquinone

Manurkar

Mulani

et al. 2017

J Chem Sci

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Synthesis of thermotropic liquid crystalline polyesters derived from bis[4-hydroxy benzoyloxy]-2-chloro-1,4-benzene (BHBOCB) and aliphatic dicarboxylic acid chlorides by interfacial polycondensation methodology is presented. Synthesised polyesters consist of bis[4-hydroxy benzoyloxy]-2-chloro-1,4-benzene as a mesogen and aliphatic diacid chloride as flexible spacer. The length of oligomethylene units in the polymer was varied from the trimethylene to the dodecamethylene groups. Synthesized polyesters were characterized by differential scanning calorimetry and optical microscopy. The transition temperatures and thermodynamic properties were studied for all these polymers. These polyesters exhibited thermotropic liquid crystalline behavior and showed nematic texture except decamethylene spacer. Decamethylene spacer based polyester showed marble texture of smectic C. Mesophase stability of these polyesters was higher than 123 • C (except first heating cycle of PE-1).

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Nagesh Manurkar

A Comprehensive Review of the Advancement in Recycling the Anode and Electrolyte from Spent Lithium Ion Batteries

Life Cycle Assessment of Lithium-ion Batteries: A Critical Review

Thermotropic liquid crystalline polyesters derived from 2-chloro hydroquinone

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