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Rare Earth Element Biomining from the Great Salt Lake Brine Using Engineered E. Coli

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This data describes rare earth element adsorption onto E. coli cells engineered to express a lanthanide binding tag (LBT). We used a Great Salt Lake synthetic solution as the background matrix with Tb added to 1-10,000 ppb, concentrations much lower than the competing ions present. Our results showed that Tb binds to LBT, even in the presence of high concentrations of competing metals. We also tested REE adsorption at elevated temperatures (up to 100 degrees Celsius), and observed that Tb adsorption increases with temperature of to 70 degrees Celsius, and then remains constant until 100 degrees Celsius. Data analyses were performed using an ICP-MS at UCSC.

Citation Formats

TY - DATA AB - This data describes rare earth element adsorption onto E. coli cells engineered to express a lanthanide binding tag (LBT). We used a Great Salt Lake synthetic solution as the background matrix with Tb added to 1-10,000 ppb, concentrations much lower than the competing ions present. Our results showed that Tb binds to LBT, even in the presence of high concentrations of competing metals. We also tested REE adsorption at elevated temperatures (up to 100 degrees Celsius), and observed that Tb adsorption increases with temperature of to 70 degrees Celsius, and then remains constant until 100 degrees Celsius. Data analyses were performed using an ICP-MS at UCSC. AU - Jiao, Yongqin A2 - Park, Dan A3 - Brewer, Aaron DB - Open Energy Data Initiative (OEDI) DP - Open EI | National Renewable Energy Laboratory DO - 10.15121/1377900 KW - geothermal KW - energy KW - Rare earth element KW - adsorption KW - geofluid KW - REE KW - brine KW - biomining KW - e. coli KW - great salt lake KW - brine study LA - English DA - 2017/06/04 PY - 2017 PB - Lawrence Livermore National Laboratory T1 - Rare Earth Element Biomining from the Great Salt Lake Brine Using Engineered E. Coli UR - https://doi.org/10.15121/1377900 ER -
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Jiao, Yongqin, et al. Rare Earth Element Biomining from the Great Salt Lake Brine Using Engineered E. Coli. Lawrence Livermore National Laboratory, 4 June, 2017, GDR. https://doi.org/10.15121/1377900.
Jiao, Y., Park, D., & Brewer, A. (2017). Rare Earth Element Biomining from the Great Salt Lake Brine Using Engineered E. Coli. [Data set]. GDR. Lawrence Livermore National Laboratory. https://doi.org/10.15121/1377900
Jiao, Yongqin, Dan Park, and Aaron Brewer. Rare Earth Element Biomining from the Great Salt Lake Brine Using Engineered E. Coli. Lawrence Livermore National Laboratory, June, 4, 2017. Distributed by GDR. https://doi.org/10.15121/1377900
@misc{OEDI_Dataset_7125, title = {Rare Earth Element Biomining from the Great Salt Lake Brine Using Engineered E. Coli}, author = {Jiao, Yongqin and Park, Dan and Brewer, Aaron}, abstractNote = {This data describes rare earth element adsorption onto E. coli cells engineered to express a lanthanide binding tag (LBT). We used a Great Salt Lake synthetic solution as the background matrix with Tb added to 1-10,000 ppb, concentrations much lower than the competing ions present. Our results showed that Tb binds to LBT, even in the presence of high concentrations of competing metals. We also tested REE adsorption at elevated temperatures (up to 100 degrees Celsius), and observed that Tb adsorption increases with temperature of to 70 degrees Celsius, and then remains constant until 100 degrees Celsius. Data analyses were performed using an ICP-MS at UCSC. }, url = {https://gdr.openei.org/submissions/957}, year = {2017}, howpublished = {GDR, Lawrence Livermore National Laboratory, https://doi.org/10.15121/1377900}, note = {Accessed: 2025-05-03}, doi = {10.15121/1377900} }
https://dx.doi.org/10.15121/1377900

Details

Data from Jun 4, 2017

Last updated Jan 9, 2020

Submitted Aug 8, 2017

Organization

Lawrence Livermore National Laboratory

Contact

Yongqin Jiao

925.422.4482

Authors

Yongqin Jiao

Lawrence Livermore National Laboratory

Dan Park

Lawrence Livermore National Laboratory

Aaron Brewer

Lawrence Livermore National Laboratory

Research Areas

DOE Project Details

Project Name Extraction of Rare Earth Metals from Geothermal Fluids using Bioengineered Microbes

Project Lead Arlene Anderson

Project Number LLNL FY17 AOP 2.5.1.12

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