Rapid, Selective Extraction of Silver from Complex Water Matrices with a Metal–Organic Framework/Oligomer Composite Constructed via Supercritical CO<sub>2</sub>
Tianwei Xue, Li Peng, Olga A. Syzgantseva, Maria A. Syzgantseva, Peiwen Guo, Huiyan Lai, Ruiqing Li, Jiawen Chen, Shumu Li, Xiaomei Yan, Shuliang Yang, Jun Li, Buxing Han, Wendy L. Queen
Abstract
Abstract Every year vast quantities of silver are lost in various waste streams; this, combined with its limited, diminishing supply and rising demand, makes silver recovery of increasing importance. Thus, herein, we report a controllable, green process to produce a host of highly porous metal–organic framework (MOF)/oligomer composites using supercritical carbon dioxide (ScCO 2 ) as a medium. One resulting composite, referred to as MIL‐127/Poly‐ o ‐phenylenediamine (PoPD), has an excellent Ag + adsorption capacity, removal efficiency (>99 %) and provides rapid Ag + extraction in as little as 5 min from complex liquid matrices. Notably, the composite can also reduce sliver concentrations below the levels (<0.1 ppm) established by the United States Environmental Protection Agency. Using theoretical simulations, we find that there are spatially ordered polymeric units inside the MOF that promote the complexation of Ag + over other common competing ions. Moreover, the oligomer is able to reduce silver to its metallic state, also providing antibacterial properties.