A cradle-to-grave life-cycle-assessment of dry-processed Li-ion batteries for electric vehicles

Yu Gu; Runming Tao; Chris Yuan; Hong C. Zhang; Michael Hauschild

doi:10.1016/j.cirp.2025.04.075

A cradle-to-grave life-cycle-assessment of dry-processed Li-ion batteries for electric vehicles

Yu Gu, Runming Tao, Chris Yuan^*, Hong C. Zhang, Michael Hauschild

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Maxwell-type dry processing has emerged as a promising manufacturing technology for high-areal-loading Li-ion battery electrodes, offering a significant advantage by eliminating the use of the toxic and costly NMP solvent. This study developed a cradle-to-grave life-cycle-assessment model to evaluate the environmental impacts of this innovative technology, benchmarking the results against the conventional NMP-based technique for a configured 42 kWh NMC622-graphite battery pack. The findings reveal that the dry-processing method merits a 4.8% lower energy consumption and achieves environmental impacts up to 47.5% lower in 12 out of 13 categories, highlighting its environmental benefits compared with the NMP-based manufacturing processes.

Original language	English
Journal	C I R P Annals
ISSN	0007-8506
DOIs	https://doi.org/10.1016/j.cirp.2025.04.075
Publication status	Accepted/In press - 2025

Keywords

Lifecycle
Electrode
Li-ion battery

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.cirp.2025.04.075

Cite this

@article{6c62c7e278e74e449f1db33731ef6526,

title = "A cradle-to-grave life-cycle-assessment of dry-processed Li-ion batteries for electric vehicles",

abstract = "Maxwell-type dry processing has emerged as a promising manufacturing technology for high-areal-loading Li-ion battery electrodes, offering a significant advantage by eliminating the use of the toxic and costly NMP solvent. This study developed a cradle-to-grave life-cycle-assessment model to evaluate the environmental impacts of this innovative technology, benchmarking the results against the conventional NMP-based technique for a configured 42 kWh NMC622-graphite battery pack. The findings reveal that the dry-processing method merits a 4.8% lower energy consumption and achieves environmental impacts up to 47.5% lower in 12 out of 13 categories, highlighting its environmental benefits compared with the NMP-based manufacturing processes.",

keywords = "Lifecycle, Electrode, Li-ion battery",

author = "Yu Gu and Runming Tao and Chris Yuan and Zhang, {Hong C.} and Michael Hauschild",

year = "2025",

doi = "10.1016/j.cirp.2025.04.075",

language = "English",

journal = "C I R P Annals",

issn = "0007-8506",

publisher = "Elsevier",

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TY - JOUR

T1 - A cradle-to-grave life-cycle-assessment of dry-processed Li-ion batteries for electric vehicles

AU - Gu, Yu

AU - Tao, Runming

AU - Yuan, Chris

AU - Zhang, Hong C.

AU - Hauschild, Michael

PY - 2025

Y1 - 2025

N2 - Maxwell-type dry processing has emerged as a promising manufacturing technology for high-areal-loading Li-ion battery electrodes, offering a significant advantage by eliminating the use of the toxic and costly NMP solvent. This study developed a cradle-to-grave life-cycle-assessment model to evaluate the environmental impacts of this innovative technology, benchmarking the results against the conventional NMP-based technique for a configured 42 kWh NMC622-graphite battery pack. The findings reveal that the dry-processing method merits a 4.8% lower energy consumption and achieves environmental impacts up to 47.5% lower in 12 out of 13 categories, highlighting its environmental benefits compared with the NMP-based manufacturing processes.

AB - Maxwell-type dry processing has emerged as a promising manufacturing technology for high-areal-loading Li-ion battery electrodes, offering a significant advantage by eliminating the use of the toxic and costly NMP solvent. This study developed a cradle-to-grave life-cycle-assessment model to evaluate the environmental impacts of this innovative technology, benchmarking the results against the conventional NMP-based technique for a configured 42 kWh NMC622-graphite battery pack. The findings reveal that the dry-processing method merits a 4.8% lower energy consumption and achieves environmental impacts up to 47.5% lower in 12 out of 13 categories, highlighting its environmental benefits compared with the NMP-based manufacturing processes.

KW - Lifecycle

KW - Electrode

KW - Li-ion battery

U2 - 10.1016/j.cirp.2025.04.075

DO - 10.1016/j.cirp.2025.04.075

M3 - Journal article

SN - 0007-8506

JO - C I R P Annals

JF - C I R P Annals

ER -

A cradle-to-grave life-cycle-assessment of dry-processed Li-ion batteries for electric vehicles

Abstract

Keywords

UN SDGs

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