New technique to transform precious metal recovery March 6, 2013 Murdoch University researchers have come up with a new approach to make the recovery of high value precious metals faster and more economically viable. Dr Chun-Yang Yin and Dr Aleksandar Nikoloski said the rising cost of metals such as platinum and palladium made recovery economically and environmentally vital. Their technique – which was trialled by extracting platinum and palladium from a spent automotive catalyst leach solution – has shown major advantages over conventional methods. “Traditional mineral extraction uses a time-consuming two-stage process which sees a mineral leach solution and an extractant vigorously mixed before being transferred to a settler,” Dr Yin said. “The new microfluidics approach is a single-stage process which sees the leach solution and extractant pumped along two very fine micro-channels embedded in a PYREXTM microchip. “This nano-level interplay results in increased surface-to-volume ratio and improved metal ion transfer, with 99 per cent of extraction occurring within a single second. “This really could transform the purification technology for platinum group metals and the niche minerals industry.” Dr Yin said the new technique would not only speed up processing, but would allow companies to significantly reduce plant space as compared to traditional methods. “Microfluidics is an emerging area of science – and our innovations represent an excellent opportunity for Australian researchers and companies to gain a foothold in the area,” Dr Yin said. “Up until now microfluidics has been used primarily in the medical and pharmaceutical industries, and has never been applied to industrial mineral processing. We’re one of only a very few groups in the world working in this area.” Dr Yin said the findings represented proof-of-concept and that his group was now interested in partnering with industry to scale up. He added that the new technique could be ideal for the purification of rare earth elements, which are vital commodities for ‘green’ technologies such as hybrid cars and novel batteries. The research is published in the peer-reviewed journal Minerals Engineering. Murdoch University achieved the highest ranking of 5 (‘well above world standard’) in Resources Engineering and Extractive Metallurgy in the Australia Research Council’s Excellence in Research for Australia (ERA) in 2012. Print This Post Media contact: Rob Payne Tel: (08) 9360-2491 | Mobile: | Email: firstname.lastname@example.org Categories: General, Teaching and Learning, Future Students, International students, Research, Schools, Resources technology, School of Engineering and Information Technology, School of Veterinary and Life Sciences, School of Veterinary and Life Sciences Research Tags: School of Engineering and Information Technology, School of Veterinary and Life Sciences, aleksandar nikoloski, chun-yang yin, extractive metallurgy, minerals engineering, palladium, platinum, precious metals, rare earth metals Leave a comment Name (required) Mail (will not be published) (required) Website You can use these tags : <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <s> <strike> <strong> We read every comment and will make every effort to approve each new comment within one working day. To ensure speedy posting, please keep your comments relevant to the topic of discussion, free of inappropriate language and in-line with the editorial integrity of this newsroom. If not, your comments may not be published. Thanks for commenting!