Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol
Photoredox catalysis, which can legitimately change visible-light (solar energy) into chemical energy, is a swiftly rising and promising approach to instigate chemical reactions because solar energy is clean, inexpensive, boundless and simply available energy resource. For many important organic tra...
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doaj-96433db8fb40464abf10f6db295531f52020-12-27T04:31:54ZengElsevierCurrent Research in Green and Sustainable Chemistry2666-08652020-06-013100031Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocolAnshu Dandia0Pratibha Saini1Ruchi Sharma2Vijay Parewa3Corresponding author.; Centre of Advanced Studies, Department of Chemistry, University of Rajasthan, Jaipur, 302004, IndiaCentre of Advanced Studies, Department of Chemistry, University of Rajasthan, Jaipur, 302004, IndiaCentre of Advanced Studies, Department of Chemistry, University of Rajasthan, Jaipur, 302004, IndiaCorresponding author.; Centre of Advanced Studies, Department of Chemistry, University of Rajasthan, Jaipur, 302004, IndiaPhotoredox catalysis, which can legitimately change visible-light (solar energy) into chemical energy, is a swiftly rising and promising approach to instigate chemical reactions because solar energy is clean, inexpensive, boundless and simply available energy resource. For many important organic transformations, photocatalytic alternates such as transition-metal-based photocatalysts, organic dyes and many nanoparticles have been reported to catalyze photocatalytic organic reactions through electron–hole transfer process. Recently, immense efforts and encouraging achievements are accomplished in the area of semiconductor perovskite-type catalytic materials as a photocatalysts in organic synthesis, owing to their ‘structural adjustability and fascinating convenient physicochemical properties’. Hitherto, unique photo-catalytic properties of several perovskite-type catalytic materials as substitutes of noble metals have been advanced and their functions in photoredox catalysis examined. From the beginning of 2017, the research on photoredox catalysis using perovskite as a photocatalyst has meant one of the innovative pattern in heterogeneous photocatalytic organic reactions and is as yet growing. This review covers brand-new accomplishments in soler-driven chemical reactions, for example, C–H activation, redox reaction, bond forming process, coupling reactions, bond cleavage, dehydrogenation, and ring–opening reactions using perovskite-type catalytic materials as a heterogeneous photocatalysts have been reported during last five years.http://www.sciencedirect.com/science/article/pii/S2666086520300345PerovskiteVisible-lightPhotocatalystsOrganic transformationsPhotocatalysis |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Anshu Dandia Pratibha Saini Ruchi Sharma Vijay Parewa |
spellingShingle |
Anshu Dandia Pratibha Saini Ruchi Sharma Vijay Parewa Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol Current Research in Green and Sustainable Chemistry Perovskite Visible-light Photocatalysts Organic transformations Photocatalysis |
author_facet |
Anshu Dandia Pratibha Saini Ruchi Sharma Vijay Parewa |
author_sort |
Anshu Dandia |
title |
Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol |
title_short |
Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol |
title_full |
Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol |
title_fullStr |
Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol |
title_full_unstemmed |
Visible light driven perovskite-based photocatalysts: A new candidate for green organic synthesis by photochemical protocol |
title_sort |
visible light driven perovskite-based photocatalysts: a new candidate for green organic synthesis by photochemical protocol |
publisher |
Elsevier |
series |
Current Research in Green and Sustainable Chemistry |
issn |
2666-0865 |
publishDate |
2020-06-01 |
description |
Photoredox catalysis, which can legitimately change visible-light (solar energy) into chemical energy, is a swiftly rising and promising approach to instigate chemical reactions because solar energy is clean, inexpensive, boundless and simply available energy resource. For many important organic transformations, photocatalytic alternates such as transition-metal-based photocatalysts, organic dyes and many nanoparticles have been reported to catalyze photocatalytic organic reactions through electron–hole transfer process. Recently, immense efforts and encouraging achievements are accomplished in the area of semiconductor perovskite-type catalytic materials as a photocatalysts in organic synthesis, owing to their ‘structural adjustability and fascinating convenient physicochemical properties’. Hitherto, unique photo-catalytic properties of several perovskite-type catalytic materials as substitutes of noble metals have been advanced and their functions in photoredox catalysis examined. From the beginning of 2017, the research on photoredox catalysis using perovskite as a photocatalyst has meant one of the innovative pattern in heterogeneous photocatalytic organic reactions and is as yet growing. This review covers brand-new accomplishments in soler-driven chemical reactions, for example, C–H activation, redox reaction, bond forming process, coupling reactions, bond cleavage, dehydrogenation, and ring–opening reactions using perovskite-type catalytic materials as a heterogeneous photocatalysts have been reported during last five years. |
topic |
Perovskite Visible-light Photocatalysts Organic transformations Photocatalysis |
url |
http://www.sciencedirect.com/science/article/pii/S2666086520300345 |
work_keys_str_mv |
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