TY - Journal Article AU - Castelein, Martijn AU - Verbruggen, Florian AU - Van Renterghem, Lisa AU - Spooren, Jeroen AU - Yurramendi, Lourdes AU - Du Laing, Gijs AU - Boon, Nico AU - Soetaert, Wim AU - Hennebel, Tom AU - Roelants, Sophie AU - Williamson, Adam J. TI - Bioleaching of metals from secondary materials using glycolipid biosurfactants PY - 2021 PB - Elsevier Ltd AB - With the global demand for economically important metals increasing, compounded by the depletion of readily accessible ores, secondary resources and low-grade ores are being targeted to meet growing demands. Novel technologies developed within biobased industries, such as microbial biosurfactants, could be implemented to improve the sustainability of traditional hydrometallurgy techniques. This study investigates newly developed microbial biosurfactants (acidic- and bolaform glycolipids) for the leaching of metals (particularly Cu and Zn) from a suite of mine tailings, metallurgical sludges and automotive shredder residues. Generally, acidic sophorolipids were the most performant, and optimal Cu leaching was observed from a fayalite slag (27%) and a copper sulfide mine tailing (53%). Further investigation of the leached fayalite material showed that leaching was occurring from small metallic Cu droplets in this material via a corrosion-based mechanism, and/or from Cu-Pb sulfides, selective against dominant Fe-silicate matrices. This study highlights that acidic sophorolipid microbial biosurfactants have the potential to leach Cu and Zn from low-grade secondary materials. It also provides important fundamental insights into biosurfactant-metal and mineral interactions that are currently unexplored. Together, the convergence of leaching and mining industries with bio-industries can improve material recovery and will positively impact the bio- and circular economies and the environment. SN - 0892-6875 UR - http://hdl.handle.net/11556/1069 DX - 10.1016/j.mineng.2020.106665 ER -