Catalytic reduction of methyl blue using biosynthesized gold nanoparticles
Gold nanoparticles (AuNPs) have attracted wide attention due to their significant applications in catalysis and environmental remediation. In particular, their high surface area to volume ratio contributes to their higher reactivity and made them a powerful tool for removal of contaminant in aqueous...
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Department of Chemistry, Faculty of Science, Universiti Teknologi Malaysia
2017
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my.utm.807102019-06-27T06:20:33Z http://eprints.utm.my/id/eprint/80710/ Catalytic reduction of methyl blue using biosynthesized gold nanoparticles Nik Lukmanulhakin, Nik Mariam-Jamilah Shamsuddin, Mustaffa QD Chemistry Gold nanoparticles (AuNPs) have attracted wide attention due to their significant applications in catalysis and environmental remediation. In particular, their high surface area to volume ratio contributes to their higher reactivity and made them a powerful tool for removal of contaminant in aqueous system. Green synthesis of AuNPs utilizing plant extract has been suggested as possible eco-friendly alternatives to chemical and physical methods. Due to their higher reactivity, AuNPs have tendency to agglomerate resulting in large particle size. Ligand assisted method employing functionalize ligands will covalently anchor the AuNPs onto the solid support thus controlling the AuNPs particle size and preventing agglomeration. In this research, a (3-aminopropyl)triethoxysilane (APTES)-functionalized silica-coated magnetite biosynthesized AuNPs was synthesized using Cosmos caudatus aqueous leaf extract as the reducing agent. The magnetic biosynthesized AuNPs were characterized by using FTIR, XRD and AAS analyses. FTIR spectroscopy confirmed that the biomolecules present in the Cosmos Caudatus leaf extract act both as reducing and capping agents. The XRD diffractogram showed that the crystalline AuNPs have been immobilized on the APTES-functionalized silica-coated magnetite. The data obtained from AAS analysis indicated that the amount of Au metal present was 5.5 wt%. The reactivity of the magnetic biosynthesized AuNPs was tested in the decolourization of methyl blue in aqueous solution. The concentration of the dye was monitored using UV- Vis Spectrophotometry. The reduction of methyl blue obeyed a pseudo first order reaction with the highest rate constant of 1.74x10-2 min-1. The rate constant increases with the increase amount of catalyst. 83% decolourization of methyl blue was achieved suggesting that the catalyst is effective in removing methyl blue. Department of Chemistry, Faculty of Science, Universiti Teknologi Malaysia 2017 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/80710/1/NikMariamJamilah2017_CatalyticReductionofMethylBlue.pdf Nik Lukmanulhakin, Nik Mariam-Jamilah and Shamsuddin, Mustaffa (2017) Catalytic reduction of methyl blue using biosynthesized gold nanoparticles. Malaysian Journal of Catalysis, 2 (2). pp. 57-61. ISSN 0128-2581 http://mjcat.utm.my/index.php/MalJCat/article/download/71/pdf |
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QD Chemistry Nik Lukmanulhakin, Nik Mariam-Jamilah Shamsuddin, Mustaffa Catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
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Gold nanoparticles (AuNPs) have attracted wide attention due to their significant applications in catalysis and environmental remediation. In particular, their high surface area to volume ratio contributes to their higher reactivity and made them a powerful tool for removal of contaminant in aqueous system. Green synthesis of AuNPs utilizing plant extract has been suggested as possible eco-friendly alternatives to chemical and physical methods. Due to their higher reactivity, AuNPs have tendency to agglomerate resulting in large particle size. Ligand assisted method employing functionalize ligands will covalently anchor the AuNPs onto the solid support thus controlling the AuNPs particle size and preventing agglomeration. In this research, a (3-aminopropyl)triethoxysilane (APTES)-functionalized silica-coated magnetite biosynthesized AuNPs was synthesized using Cosmos caudatus aqueous leaf extract as the reducing agent. The magnetic biosynthesized AuNPs were characterized by using FTIR, XRD and AAS analyses. FTIR spectroscopy confirmed that the biomolecules present in the Cosmos Caudatus leaf extract act both as reducing and capping agents. The XRD diffractogram showed that the crystalline AuNPs have been immobilized on the APTES-functionalized silica-coated magnetite. The data obtained from AAS analysis indicated that the amount of Au metal present was 5.5 wt%. The reactivity of the magnetic biosynthesized AuNPs was tested in the decolourization of methyl blue in aqueous solution. The concentration of the dye was monitored using UV- Vis Spectrophotometry. The reduction of methyl blue obeyed a pseudo first order reaction with the highest rate constant of 1.74x10-2 min-1. The rate constant increases with the increase amount of catalyst. 83% decolourization of methyl blue was achieved suggesting that the catalyst is effective in removing methyl blue. |
| format |
Article |
| author |
Nik Lukmanulhakin, Nik Mariam-Jamilah Shamsuddin, Mustaffa |
| author_facet |
Nik Lukmanulhakin, Nik Mariam-Jamilah Shamsuddin, Mustaffa |
| author_sort |
Nik Lukmanulhakin, Nik Mariam-Jamilah |
| title |
Catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
| title_short |
Catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
| title_full |
Catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
| title_fullStr |
Catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
| title_full_unstemmed |
Catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
| title_sort |
catalytic reduction of methyl blue using biosynthesized gold nanoparticles |
| publisher |
Department of Chemistry, Faculty of Science, Universiti Teknologi Malaysia |
| publishDate |
2017 |
| url |
http://eprints.utm.my/id/eprint/80710/1/NikMariamJamilah2017_CatalyticReductionofMethylBlue.pdf http://eprints.utm.my/id/eprint/80710/ http://mjcat.utm.my/index.php/MalJCat/article/download/71/pdf |
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