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Scalable and Consolidated Microbial Platform for Rare Earth Element Leaching and Recovery from Waste Sources

Nathan Good, Christina S. Kang-Yun, Morgan Z. Su, Alexa M. Zytnick, Colin Barber, Huong N. Vu, Joseph M. Grace, Hoang H. Nguyen, Wenjun Zhang, Elizabeth Skovran, Maohong Fan, Dan Park, N. Cecilia Martínez-Gómez

2023Environmental Science & Technology38 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Chemical methods for the extraction and refinement of technologically critical rare earth elements (REEs) are energy-intensive, hazardous, and environmentally destructive. Current biobased extraction systems rely on extremophilic organisms and generate many of the same detrimental effects as chemical methodologies. The mesophilic methylotrophic bacterium Methylobacterium extorquens AM1 was previously shown to grow using electronic waste by naturally acquiring REEs to power methanol metabolism. Here we show that growth using electronic waste as a sole REE source is scalable up to 10 L with consistent metal yields without the use of harsh acids or high temperatures. The addition of organic acids increases REE leaching in a nonspecific manner. REE-specific bioleaching can be engineered through the overproduction of REE-binding ligands (called lanthanophores) and pyrroloquinoline quinone. REE bioaccumulation increases with the leachate concentration and is highly specific. REEs are stored intracellularly in polyphosphate granules, and genetic engineering to eliminate exopolyphosphatase activity increases metal accumulation, confirming the link between phosphate metabolism and biological REE use. Finally, we report the innate ability of M. extorquens to grow using other complex REE sources, including pulverized smartphones, demonstrating the flexibility and potential for use as a recovery platform for these critical metals.

Topics & Concepts

Leaching (pedology)ScalabilityEnvironmental scienceWaste managementRare-earth elementRare earthChemistryComputer scienceEngineeringMineralogySoil scienceDatabaseSoil waterExtraction and Separation ProcessesGeochemistry and Elemental AnalysisRadioactive element chemistry and processing
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