A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes

A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes

Abstract Up to now, a very few catalysts have been developed approaching the heterogeneous catalytic degradation of Eosin Y and Chromotrope 2R dyes (Acid Red 29). The present study provides a complete perspective of recyclable nanocomposite Au(Salen)@CC for catalytic degradation of hazardous water p...

Full description

Bibliographic Details
Main Authors: Vishal J. Mayani, Suranjana V. Mayani, Sang Wook Kim
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-07707-6
id doaj-2860f6fa7036492aaa10cecd04620203
record_format Article
spelling doaj-2860f6fa7036492aaa10cecd046202032020-12-08T02:13:39ZengNature Publishing GroupScientific Reports2045-23222017-08-01711910.1038/s41598-017-07707-6A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R DyesVishal J. Mayani0Suranjana V. Mayani1Sang Wook Kim2Department of Advanced Materials Chemistry, College of Science and Technology, Dongguk UniversityDepartment of Advanced Materials Chemistry, College of Science and Technology, Dongguk UniversityDepartment of Advanced Materials Chemistry, College of Science and Technology, Dongguk UniversityAbstract Up to now, a very few catalysts have been developed approaching the heterogeneous catalytic degradation of Eosin Y and Chromotrope 2R dyes (Acid Red 29). The present study provides a complete perspective of recyclable nanocomposite Au(Salen)@CC for catalytic degradation of hazardous water pollutant dyes viz., Eosin Y & Chromotrope 2R using mild reaction conditions. New gold Salen complex doped carbon nanocomposite Au(Salen)@CC was developed by easy methodology using nano carbon cage (CC) prepared from low-priced Pyrolysis fuel oil (PFO) residue based Pitch. The UV-Vis adsorption spectroscopy results of Eosin Y and Chromotrope 2R dyes indicated complete degradation into acidic compounds which can be further mineralized to CO2 and H2O under mild reaction conditions. The heterogeneous catalyst recycled and reused successfully for four repeated experiments without loss in its adequate performance. This new sustainable and eco-friendly catalyst delivered significant degradation activity compared to existing reports and it can be further utilized for new multifunctional applications such as, radiopharmaceutical activities, heterogeneous catalysis and chiral resolution.https://doi.org/10.1038/s41598-017-07707-6
collection DOAJ
language English
format Article
sources DOAJ
author Vishal J. Mayani
Suranjana V. Mayani
Sang Wook Kim
spellingShingle Vishal J. Mayani
Suranjana V. Mayani
Sang Wook Kim
A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes
Scientific Reports
author_facet Vishal J. Mayani
Suranjana V. Mayani
Sang Wook Kim
author_sort Vishal J. Mayani
title A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes
title_short A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes
title_full A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes
title_fullStr A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes
title_full_unstemmed A Sustainable Nanocomposite Au(Salen)@CC for Catalytic Degradation of Eosin Y and Chromotrope 2R Dyes
title_sort sustainable nanocomposite au(salen)@cc for catalytic degradation of eosin y and chromotrope 2r dyes
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract Up to now, a very few catalysts have been developed approaching the heterogeneous catalytic degradation of Eosin Y and Chromotrope 2R dyes (Acid Red 29). The present study provides a complete perspective of recyclable nanocomposite Au(Salen)@CC for catalytic degradation of hazardous water pollutant dyes viz., Eosin Y & Chromotrope 2R using mild reaction conditions. New gold Salen complex doped carbon nanocomposite Au(Salen)@CC was developed by easy methodology using nano carbon cage (CC) prepared from low-priced Pyrolysis fuel oil (PFO) residue based Pitch. The UV-Vis adsorption spectroscopy results of Eosin Y and Chromotrope 2R dyes indicated complete degradation into acidic compounds which can be further mineralized to CO2 and H2O under mild reaction conditions. The heterogeneous catalyst recycled and reused successfully for four repeated experiments without loss in its adequate performance. This new sustainable and eco-friendly catalyst delivered significant degradation activity compared to existing reports and it can be further utilized for new multifunctional applications such as, radiopharmaceutical activities, heterogeneous catalysis and chiral resolution.
url https://doi.org/10.1038/s41598-017-07707-6
work_keys_str_mv AT vishaljmayani asustainablenanocompositeausalenccforcatalyticdegradationofeosinyandchromotrope2rdyes
AT suranjanavmayani asustainablenanocompositeausalenccforcatalyticdegradationofeosinyandchromotrope2rdyes
AT sangwookkim asustainablenanocompositeausalenccforcatalyticdegradationofeosinyandchromotrope2rdyes
AT vishaljmayani sustainablenanocompositeausalenccforcatalyticdegradationofeosinyandchromotrope2rdyes
AT suranjanavmayani sustainablenanocompositeausalenccforcatalyticdegradationofeosinyandchromotrope2rdyes
AT sangwookkim sustainablenanocompositeausalenccforcatalyticdegradationofeosinyandchromotrope2rdyes
_version_ 1724393934128414720

Similar Items