Customizable Biopolymers for Heavy Metal Remediation |
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Authors: | Jan Kostal Giridhar Prabhukumar U. Loi Lao Alin Chen Mark Matsumoto Ashok Mulchandani Wilfred Chen |
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Affiliation: | (1) Department of Chemical and Environmental Engineering, University of California, Riverside, CA 92521, USA |
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Abstract: | Nanoscale materials have been gaining increasing interest in the area of environmental remediation because of their unique physical, chemical and biological properties. One emerging area of research has been the development of novel materials with increased affinity, capacity, and selectivity for heavy metals because conventional technologies are often inadequate to reduce concentrations in wastewater to acceptable regulatory standards. Genetic and protein engineering have emerged as the latest tools for the construction of nanoscale materials that can be controlled precisely at the molecular level. With the advent of recombinant DNA techniques, it is now possible to create ‘artificial’ protein polymers with fundamentally new molecular organization. The most significant feature of these nanoscale biopolymers is that they are specifically pre-programmed within a synthetic gene template and can be controlled precisely in terms of sizes, compositions and functions at the molecular level. In this review, the use of specifically designed protein-based nano-biomaterials with both metal-binding and tunable properties for heavy metal removal is summarized. Several different strategies for the selective removal of heavy metals such as cadmium and mercury are highlighted. |
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Keywords: | elastin tunable fermentation microbial synthesis arsenic, lead mercury water quality |
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