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Bioleaching of Lithium-Ion Battery Black Mass: A Comparative Study on Gluconobacter oxydans and Acidithiobacillus thiooxidans

Matthias Markus Mandl, Reinhard Lerchbammer, Eva Gerold

2025Metals7 citationsDOIOpen Access PDF

Abstract

The growing demand for lithium-ion batteries (LIBs) requires efficient and sustainable recycling solutions. This study investigates bioleaching as an alternative to conventional hydrometallurgical methods, focusing on (i) organic acid-mediated leaching with Gluconobacter oxydans and (ii) sulfuric acid bioleaching with Acidithiobacillus thiooxidans. Experiments were conducted at 26 °C with leaching durations of one to three weeks, depending on the microbial system, at pH 1.35 for sulfuric acid treatments, and with liquid-to-solid ratios equivalent to 100 mL g−1 (A. thiooxidans) or 100 mL g−1 in culture medium (G. oxydans). Results show that indirect bioleaching with G. oxydans achieved high recovery rates for cobalt (96%), manganese (100%), nickel (65%), and lithium (68%), while the direct approach was less effective due to microbial inhibition by black mass components. Similarly, biologically produced sulfuric acid exhibited moderate leaching efficiencies, but chemically synthesized sulfuric acid outperformed it, particularly for nickel (93%) and lithium (76%) after one week of leaching. These findings suggest that bioleaching is a promising, eco-friendly alternative for LIB recycling but requires further process optimization to improve metal recovery and industrial scalability. Future research should explore hybrid approaches combining bioleaching with conventional leaching techniques.

Topics & Concepts

BioleachingSulfuric acidLeaching (pedology)ChemistryAcidithiobacillus ferrooxidansCobaltAcidithiobacillus thiooxidansPulp and paper industryNickelAcidithiobacillusMetallurgyJarositeFood scienceFermentationNuclear chemistryManganeseThiobacillusPentlanditeMicrobial metabolism and enzyme functionBiofuel production and bioconversionBiochemical and biochemical processes
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