New molecules created at Notre Dame to reduce cost, environmental impact of mining precious metals | News | Notre Dame News | University of Notre Dame Skip To Content Skip To Navigation Skip To Search University of Notre Dame Notre Dame News Experts ND in the News Subscribe About Us Home Contact Search Menu Home › News › New molecules created at Notre Dame to reduce cost, environmental impact of mining precious metals New molecules created at Notre Dame to reduce cost, environmental impact of mining precious metals Published: June 07, 2018 Author: Brandi Klingerman ND Experts Bradley Smith Emil T. Hofman Professor of Science Bradley D. Smith Researchers at the University of Notre Dame have invented a new class of molecules that can be used to simplify the process used for capturing precious metals including gold, platinum and palladium.  The study, which was published in the Journal of the American Chemical Society, shows how these newly developed molecules were created with a particular shape and size that enable them to capture and contain precious metal ions. This unique molecular recognition property can be exploited for multiple applications – the most notable of which is gold mining. “Currently, most of the world’s gold mining relies on a 125-year-old method that treats gold-containing ore with large quantities of poisonous sodium cyanide, which is extremely dangerous for mine workers and can cause environmental issues,” said Bradley D. Smith, Emil T. Hofman Professor of Chemistry and Biochemistry, senior author of the study and the director of the Notre Dame Integrated Imaging Facility. “The new container molecules that our research team created are expected to be very useful for mining gold since they can be used in an alternative process under milder conditions.” This alternative mining method converts the gold-containing ore into chloroauric acid and extracts it using an industrial solvent. The container molecules are able to selectively separate the gold from the solvent without the use of water stripping, which is economically and environmentally costly. “Our newly developed molecules have the ability to eliminate this need for water stripping and facilitates solvent recycling in this alternative mining process,” said Smith. In addition to their use for gold mining, these container molecules could also be applied to “urban mining,” which includes processes that remove precious metals from urban wastewater streams.  Other authors on the study include lead author Wenqi Liu, doctoral student in chemistry and biochemistry, and Allen G. Oliver, director of the Molecular Structure Facility. Both Liu and Smith hold a provisional patent for these molecules.  This research was funded by the National Science Foundation. To read the study, visit https://pubs.acs.org/doi/10.1021/jacs.8b04155.  The Integrated Imaging Facility at the University of Notre Dame provides an integrated suite of sophisticated microscopes and imaging stations that enable expert users to attack the most complex research problems as well as resident professional staff, including technicians and research specialists, to guide non-expert users. The facility is open to campus and external users. To learn more about the facility, visit imaging.nd.edu. Contact: Brandi R. Klingerman, research communications specialist, Notre Dame Research, bklinger@nd.edu, 574-631-8183; @UNDResearch Originally published by Brandi Klingerman at research.nd.edu on June 5. Posted In: Research Home Experts ND in the News Subscribe About Us Related October 05, 2022 Astrophysicists find evidence for the presence of the first stars October 04, 2022 NIH awards $4 million grant to psychologists researching suicide prevention September 29, 2022 Notre Dame, Ukrainian Catholic University launch three new research grants September 27, 2022 Notre Dame, Trinity College Dublin engineers join to advance novel treatment for cystic fibrosis September 22, 2022 Climate-prepared countries are losing ground, latest ND-GAIN index shows For the Media Contact Office of Public Affairs and Communications Notre Dame News 500 Grace Hall Notre Dame, IN 46556 USA Facebook Twitter Instagram YouTube Pinterest © 2022 University of Notre Dame Search Mobile App News Events Visit Accessibility Facebook Twitter Instagram YouTube LinkedIn