News News
Contact us
  • Customer service number:64321087
  • Commercial service telephone:13918059423
  • Technical service telephone:13918059423
  • Contact person: Mr. Cui 
  • Service
  • Address: room 107, building 8, no. 100, guilin road, xuhui district, Shanghai

Natural protein captures rare-earth elements better than synthetic chelators

The date of: 2020-08-28
viewed: 1

source:Chemical&Engineering News

are-earth metals are essential parts of electronic components in phones, vehicles, displays, and wind turbines. A new study shows that a recently discovered protein from bacteria outperforms many current methods for extracting these elements from waste streams while potentially being more environmentally friendly (Inorg. Chem. 2020, DOI: 10.1021/acs.inorgchem.0c01303).

Concentrated amounts of rare-earth metals, also called lanthanides, are only found in a few ore deposits around the world. More abundant but far more dilute sources of these materials include electronic waste and rare-earth-containing coals. But these dilute sources are rarely economical to tap because the current methods for collection, which mainly involve solvent extraction, are inefficient and produce large amounts of toxic compounds.

In 2018, Joseph A. Cotruvo Jr. of Pennsylvania State University and colleagues discovered a new protein, called lanmodulin, that selectively binds lanthanides in bacteria that require these rare earths to survive. In the new work, the team wanted to see if the protein could be useful in extracting these elements. They compared lanmodulin’s ability to pull lanthanides out of streams of electronic waste and rare-earth-containing coal with the traditional chelators used in current rare-earth processing plants. Lanmodulin was orders of magnitude more selective, capturing neodymium and europium ions while leaving behind ions present at higher concentrations in the waste streams, such as iron and zinc.

Lanmodulin “has a huge appetite for rare-earth metals and basically nothing else,” says study author Gauthier J.-P. Deblonde of Lawrence Livermore National Laboratory. “I’m not aware of any other macromolecules or small chelators which are able to display such universal selectivity for these elements.”

Most proteins denature at low pH or high temperature, but lanmodulin proved to be unusually robust. Rare-earth ions bound to lanmodulin at a pH as low as 2.5 and temperatures up to 95 °C, which Deblonde calls “completely unique” to this protein. Synthetic protein chelators typically release their lanthanides at about pH 6, which can limit their industrial applications.

The advantage of the lanmodulin protein’s powerful lanthanide selectivity is that it works in an aqueous environment, a greener option than typical solvent extraction procedures that produce difficult-to-dispose-of contaminated organic waste.

“Compared to the synthetic proteins that have been tried for lanthanide binding, this protein just blows them out of the water,” Cotruvo says. “And the organisms it comes from grow on plants, in soil—they’re ubiquitous.”

“It’s just a breathtaking development for this totally new field of rare-earths biochemistry,” says Eric J. Schelter of the University of Pennsylvania, who was not involved in the study. “I think it has potential to contribute to the goal of making rare-earth mining more sustainable because it’s just so incredibly selective.”

Hot News / Related to recommend
  • 2023 - 03 - 30
    Click on the number of times: 0
    source:natureAbstractThe world’s largest current Cu resource is volcanic arc-hosted, porphyry copper deposits. Whether unusual parental magmas or fortuitous combinations of processes accompanying empl...
  • 2023 - 03 - 28
    Click on the number of times: 1
    source:designnewsRare earth elements (REEs) are a group of 17 metallic elements that are used in high-tech electronics, electric vehicle motors, defense systems, and other consumer goods, according to...
  • 2023 - 03 - 27
    Click on the number of times: 1
    source:techxploreRare earth elements (REE), a group of 17 metallic elements, are in nearly every piece of technology, including cell phones, televisions, computers and almost every part of a vehicle. ...
  • 2023 - 03 - 24
    Click on the number of times: 1
    source:astrobiologyA new biosensor engineered by Penn State researchers offers scientists the first dynamic glimpses of manganese, an elusive metal ion that is essential for life.The researchers engin...
  • Copyright ©Copyright 2018 2020 Shanghai rare earth association All Rights Reserved Shanghai ICP NO.2020034223
    the host:Shanghai Association of Rare Earth the guide:Shanghai Development and Application Office of Rare Earth the organizer:Shanghai rare earth industry promotion center