Effect of Hybrid mono/bimetallic Nanocomposites for an enhancement of Catalytic and Antimicrobial Activities

Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical, pharmaceutical and food industries, etc. Hence, in the present work, authors motivated to synthesize bare reduced graphene oxide (rGO), polyaniline (PAN...

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Published in	Scientific reports Vol. 10; no. 1; p. 2586
Main Authors	Sivaranjan, Kuppan, Padmaraj, Osaimany, Santhanalakshmi, Jayadevan, Sathuvan, Malairaj, Sathiyaseelan, Anbazhagan, Sagadevan, Suresh
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 13.02.2020 Nature Publishing Group
Subjects	140/133 140/146 631/45/603 639/925/918/1055 Aniline Compounds - chemistry Aniline Compounds - pharmacology Antimicrobial agents Bacteria - drug effects Catalysis Catalysts Chemical reduction Coloring Agents - isolation & purification Electrostatic properties Environmental Pollutants - isolation & purification Food industry Fungi - drug effects Gold - chemistry Gold - pharmacology Graphite - chemistry Graphite - pharmacology Heavy metals Humanities and Social Sciences Metal ions multidisciplinary Nanocomposites Nanocomposites - chemistry Nanocomposites - ultrastructure Nitro Compounds - isolation & purification Oxidation-Reduction Palladium - chemistry Palladium - pharmacology Petrochemicals Pollutants Raman spectroscopy Science Science (multidisciplinary) Synergistic effect Wastewater
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Abstract	Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical, pharmaceutical and food industries, etc. Hence, in the present work, authors motivated to synthesize bare reduced graphene oxide (rGO), polyaniline (PANI), three different ratios of rGO-PANI (80:20, 50:50, 10:90) composites and rGO-PANI (80:20, 50:50, 10:90) supported mono (Pd) & bimetallic [Pd: Au (1:1, 1:2, 2:1) ] nanocomposite by a facile chemical reduction method. Also, it investigated their catalytic performances for the reduction of organic/inorganic pollutants and antimicrobial activities. All the freshly prepared bare rGO, PANI, three different ratios of rGO-PANI (80:20, 50:50, 10:90) composites and rGO-PANI (80:20, 50:50, 10:90) /Pd & Pd: Au (1:1, 1:2, 2:1) nanocomposite hybrid catalysts were characterized using UV-Vis, FT-IR, SEM, FE-SEM, EDAX, HR-TEM, XRD, XPS and Raman spectroscopy analysis. Among them, an optimized best composition of rGO-PANI (80:20) /Pd: Au (1:1) bimetallic nanocomposite hybrid catalyst exhibits better catalytic reduction and antimicrobial activities than other composites, as a result of strong electrostatic interactions between rGO, PANI and bimetal (Pd: Au) NPs through a synergistic effect. Hence, an optimized rGO-PANI (80:20) /Pd:Au (1:1) bimetallic nanocomposite catalyst would be considered as a suitable catalyst for the reduction of different nitroarenes, organic dyes, heavy metal ions and also significantly inhibit the growth of S. aureus, S. Typhi as well as Candida albicans and Candida kruesi in wastewater.
AbstractList	Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical, pharmaceutical and food industries, etc. Hence, in the present work, authors motivated to synthesize bare reduced graphene oxide (rGO), polyaniline (PANI), three different ratios of rGO-PANI (80:20, 50:50, 10:90) composites and rGO-PANI (80:20, 50:50, 10:90) supported mono (Pd) & bimetallic [Pd: Au (1:1, 1:2, 2:1) ] nanocomposite by a facile chemical reduction method. Also, it investigated their catalytic performances for the reduction of organic/inorganic pollutants and antimicrobial activities. All the freshly prepared bare rGO, PANI, three different ratios of rGO-PANI (80:20, 50:50, 10:90) composites and rGO-PANI (80:20, 50:50, 10:90) /Pd & Pd: Au (1:1, 1:2, 2:1) nanocomposite hybrid catalysts were characterized using UV-Vis, FT-IR, SEM, FE-SEM, EDAX, HR-TEM, XRD, XPS and Raman spectroscopy analysis. Among them, an optimized best composition of rGO-PANI (80:20) /Pd: Au (1:1) bimetallic nanocomposite hybrid catalyst exhibits better catalytic reduction and antimicrobial activities than other composites, as a result of strong electrostatic interactions between rGO, PANI and bimetal (Pd: Au) NPs through a synergistic effect. Hence, an optimized rGO-PANI (80:20) /Pd:Au (1:1) bimetallic nanocomposite catalyst would be considered as a suitable catalyst for the reduction of different nitroarenes, organic dyes, heavy metal ions and also significantly inhibit the growth of S. aureus, S. Typhi as well as Candida albicans and Candida kruesi in wastewater. Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical, pharmaceutical and food industries, etc. Hence, in the present work, authors motivated to synthesize bare reduced graphene oxide (rGO), polyaniline (PANI), three different ratios of rGO-PANI(80:20,50:50, 10:90) composites and rGO-PANI(80:20,50:50, 10:90) supported mono (Pd) & bimetallic [Pd: Au(1:1,1:2, 2:1)] nanocomposite by a facile chemical reduction method. Also, it investigated their catalytic performances for the reduction of organic/inorganic pollutants and antimicrobial activities. All the freshly prepared bare rGO, PANI, three different ratios of rGO-PANI(80:20, 50:50,10:90) composites and rGO-PANI(80:20, 50:50,10:90)/Pd & Pd: Au(1:1, 1:2,2:1) nanocomposite hybrid catalysts were characterized using UV-Vis, FT-IR, SEM, FE-SEM, EDAX, HR-TEM, XRD, XPS and Raman spectroscopy analysis. Among them, an optimized best composition of rGO-PANI(80:20)/Pd: Au(1:1) bimetallic nanocomposite hybrid catalyst exhibits better catalytic reduction and antimicrobial activities than other composites, as a result of strong electrostatic interactions between rGO, PANI and bimetal (Pd: Au) NPs through a synergistic effect. Hence, an optimized rGO-PANI(80:20)/Pd:Au(1:1) bimetallic nanocomposite catalyst would be considered as a suitable catalyst for the reduction of different nitroarenes, organic dyes, heavy metal ions and also significantly inhibit the growth of S. aureus, S. Typhi as well as Candida albicans and Candida kruesi in wastewater. Abstract Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical, pharmaceutical and food industries, etc. Hence, in the present work, authors motivated to synthesize bare reduced graphene oxide (rGO), polyaniline (PANI), three different ratios of rGO-PANI (80:20, 50:50, 10:90) composites and rGO-PANI (80:20, 50:50, 10:90) supported mono (Pd) & bimetallic [Pd: Au (1:1, 1:2, 2:1) ] nanocomposite by a facile chemical reduction method. Also, it investigated their catalytic performances for the reduction of organic/inorganic pollutants and antimicrobial activities. All the freshly prepared bare rGO, PANI, three different ratios of rGO-PANI (80:20, 50:50, 10:90) composites and rGO-PANI (80:20, 50:50, 10:90) /Pd & Pd: Au (1:1, 1:2, 2:1) nanocomposite hybrid catalysts were characterized using UV-Vis, FT-IR, SEM, FE-SEM, EDAX, HR-TEM, XRD, XPS and Raman spectroscopy analysis. Among them, an optimized best composition of rGO-PANI (80:20) /Pd: Au (1:1) bimetallic nanocomposite hybrid catalyst exhibits better catalytic reduction and antimicrobial activities than other composites, as a result of strong electrostatic interactions between rGO, PANI and bimetal (Pd: Au) NPs through a synergistic effect. Hence, an optimized rGO-PANI (80:20) /Pd:Au (1:1) bimetallic nanocomposite catalyst would be considered as a suitable catalyst for the reduction of different nitroarenes, organic dyes, heavy metal ions and also significantly inhibit the growth of S. aureus, S. Typhi as well as Candida albicans and Candida kruesi in wastewater. Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical, pharmaceutical and food industries, etc. Hence, in the present work, authors motivated to synthesize bare reduced graphene oxide (rGO), polyaniline (PANI), three different ratios of rGO-PANI composites and rGO-PANI supported mono (Pd) & bimetallic [Pd: Au ] nanocomposite by a facile chemical reduction method. Also, it investigated their catalytic performances for the reduction of organic/inorganic pollutants and antimicrobial activities. All the freshly prepared bare rGO, PANI, three different ratios of rGO-PANI composites and rGO-PANI /Pd & Pd: Au nanocomposite hybrid catalysts were characterized using UV-Vis, FT-IR, SEM, FE-SEM, EDAX, HR-TEM, XRD, XPS and Raman spectroscopy analysis. Among them, an optimized best composition of rGO-PANI /Pd: Au bimetallic nanocomposite hybrid catalyst exhibits better catalytic reduction and antimicrobial activities than other composites, as a result of strong electrostatic interactions between rGO, PANI and bimetal (Pd: Au) NPs through a synergistic effect. Hence, an optimized rGO-PANI /Pd:Au bimetallic nanocomposite catalyst would be considered as a suitable catalyst for the reduction of different nitroarenes, organic dyes, heavy metal ions and also significantly inhibit the growth of S. aureus, S. Typhi as well as Candida albicans and Candida kruesi in wastewater.
ArticleNumber	2586
Author	Santhanalakshmi, Jayadevan Sivaranjan, Kuppan Sathuvan, Malairaj Sathiyaseelan, Anbazhagan Padmaraj, Osaimany Sagadevan, Suresh
Author_xml	– sequence: 1 givenname: Kuppan surname: Sivaranjan fullname: Sivaranjan, Kuppan email: kksivaranjan@gmail.com organization: Department of Chemistry, Faculty of Science and Mathematics, Universiti Pendidikan Sultan Idris – sequence: 2 givenname: Osaimany surname: Padmaraj fullname: Padmaraj, Osaimany organization: Department of Nuclear Physics, University of Madras, Guindy Campus – sequence: 3 givenname: Jayadevan surname: Santhanalakshmi fullname: Santhanalakshmi, Jayadevan email: drjslakshmi06@yahoo.co.in organization: Department of Physical Chemistry, University of Madras, Guindy Campus – sequence: 4 givenname: Malairaj surname: Sathuvan fullname: Sathuvan, Malairaj organization: Centre for Advanced Studies in Botany, University of Madras, Guindy Campus – sequence: 5 givenname: Anbazhagan surname: Sathiyaseelan fullname: Sathiyaseelan, Anbazhagan organization: Centre for Advanced Studies in Botany, University of Madras, Guindy Campus – sequence: 6 givenname: Suresh surname: Sagadevan fullname: Sagadevan, Suresh email: drsureshnano@gmail.com organization: Nanotechnology & Catalysis Research Centre, University of Malaya
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CitedBy_id	crossref_primary_10_1039_D1NJ03198H crossref_primary_10_1016_j_polymdegradstab_2024_110749 crossref_primary_10_1016_j_porgcoat_2023_108068 crossref_primary_10_1016_j_talanta_2021_123054 crossref_primary_10_1007_s00449_024_03046_9 crossref_primary_10_1016_j_jhazmat_2022_130298 crossref_primary_10_1016_j_jallcom_2020_155635 crossref_primary_10_1016_j_molliq_2021_117492 crossref_primary_10_1016_j_trac_2020_116159 crossref_primary_10_1016_j_synthmet_2020_116669
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Snippet	Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical,... Abstract Exploring the new catalytic systems for the reduction of organic and inorganic pollutants from an indispensable process in chemical, petrochemical,...
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SubjectTerms	140/133 140/146 631/45/603 639/925/918/1055 Aniline Compounds - chemistry Aniline Compounds - pharmacology Antimicrobial agents Bacteria - drug effects Catalysis Catalysts Chemical reduction Coloring Agents - isolation & purification Electrostatic properties Environmental Pollutants - isolation & purification Food industry Fungi - drug effects Gold - chemistry Gold - pharmacology Graphite - chemistry Graphite - pharmacology Heavy metals Humanities and Social Sciences Metal ions multidisciplinary Nanocomposites Nanocomposites - chemistry Nanocomposites - ultrastructure Nitro Compounds - isolation & purification Oxidation-Reduction Palladium - chemistry Palladium - pharmacology Petrochemicals Pollutants Raman spectroscopy Science Science (multidisciplinary) Synergistic effect Wastewater
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Title	Effect of Hybrid mono/bimetallic Nanocomposites for an enhancement of Catalytic and Antimicrobial Activities
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