Gold recovery from artificial seawater using synthetic materials and seaweed biomass to induce gold nanoparticles formation in batch and column experiments
Gold recovery from artificial seawater using synthetic materials and seaweed biomass to induce gold nanoparticles formation in batch and column experiments
Gold recovery from artificial seawater was studied in the present work Two synthetic materials composed of silica gel joint to a strong chelating agent were used as reducing agents to induce gold colloid nanoparticle formation: ethylene diamine tetraacetic acid and diethylene triamine pentaacetic acid, together with brown seaweed Sargassum muticum. The mechanism and ideal conditions involving gold recovery from artificial seawater were investigated. The results showed that there is no pH effect within the range of 2-6. Moreover, the presence of other metals like Co, Ni, and Cr(VI) did not interfere the gold sorption/reduction reactions. Only thiourea showed significant regeneration percentages of the materials saturated with metallic gold. The absence of complete gold appearance in the effluent during column experiments could indicate that the sorption capacity of the materials was saturated, but not their reduction power. The shape of the obtained curves during the kinetic experiments revealed several stages occurring during the gold recovery from artificial seawater. Potentiometric titrations, FTIR, and SEM analysis provided decisive evidence supporting the proposed mechanism. A novel plausible three-step mechanism was suggested for the gold recovery from artificial seawater based on the experimental evidence. In a first stage, the adsorption of the anion species AuCl4- occurred. Following, the reduction of AuCl4- to Au(0), and the later oxidation of the metallic gold formed to the unstable AuCl2- arose. Finally, during the last stage metallic gold redissolution is not further favored, and probably only the reduction of the chloro-gold complexes to metallic gold occurred.
Precious metal, Sargassum muticum, EDTA, DTPA, Silica gel, Nanoparticle
11-19
Lodeiro, Pablo
f6c1011a-06d0-4095-bc45-2e15e9e492d0
Sillanpaa, Mika
c7227b0f-2e01-4cb2-b435-0748e8b97072
May 2013
Lodeiro, Pablo
f6c1011a-06d0-4095-bc45-2e15e9e492d0
Sillanpaa, Mika
c7227b0f-2e01-4cb2-b435-0748e8b97072
Lodeiro, Pablo and Sillanpaa, Mika
(2013)
Gold recovery from artificial seawater using synthetic materials and seaweed biomass to induce gold nanoparticles formation in batch and column experiments.
Marine Chemistry, 152, .
(doi:10.1016/j.marchem.2013.03.003).
Abstract
Gold recovery from artificial seawater was studied in the present work Two synthetic materials composed of silica gel joint to a strong chelating agent were used as reducing agents to induce gold colloid nanoparticle formation: ethylene diamine tetraacetic acid and diethylene triamine pentaacetic acid, together with brown seaweed Sargassum muticum. The mechanism and ideal conditions involving gold recovery from artificial seawater were investigated. The results showed that there is no pH effect within the range of 2-6. Moreover, the presence of other metals like Co, Ni, and Cr(VI) did not interfere the gold sorption/reduction reactions. Only thiourea showed significant regeneration percentages of the materials saturated with metallic gold. The absence of complete gold appearance in the effluent during column experiments could indicate that the sorption capacity of the materials was saturated, but not their reduction power. The shape of the obtained curves during the kinetic experiments revealed several stages occurring during the gold recovery from artificial seawater. Potentiometric titrations, FTIR, and SEM analysis provided decisive evidence supporting the proposed mechanism. A novel plausible three-step mechanism was suggested for the gold recovery from artificial seawater based on the experimental evidence. In a first stage, the adsorption of the anion species AuCl4- occurred. Following, the reduction of AuCl4- to Au(0), and the later oxidation of the metallic gold formed to the unstable AuCl2- arose. Finally, during the last stage metallic gold redissolution is not further favored, and probably only the reduction of the chloro-gold complexes to metallic gold occurred.
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Published date: May 2013
Keywords:
Precious metal, Sargassum muticum, EDTA, DTPA, Silica gel, Nanoparticle
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 355106
URI: http://eprints.soton.ac.uk/id/eprint/355106
ISSN: 0304-4203
PURE UUID: 3531c10e-c270-4fec-904e-4cabfa25812c
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Date deposited: 30 Jul 2013 14:52
Last modified: 14 Mar 2024 14:28
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Author:
Pablo Lodeiro
Author:
Mika Sillanpaa
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