Supramolecular and suprabiomolecular photochemistry: a perspective overview

In this perspective review article, we have attempted to bring out the important current trends of research in the areas of supramolecular and suprabiomolecular photochemistry. Since the spans of the subject areas are very vast, it is impossible to cover all the aspects within the limited space of t...

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Published in	Physical chemistry chemical physics : PCCP Vol. 22; no. 41; pp. 23433 - 23463
Main Authors	Dutta Choudhury, Sharmistha, Pal, Haridas
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 28.10.2020
Subjects	Drug delivery systems Dye lasers Dyes Electronic devices Energy Transfer Fluorescence Fluorescent Dyes - chemistry Fluorescent Dyes - radiation effects Functional materials Light Photochemistry Photochemistry - instrumentation Photosynthesis Physiochemistry Properties (attributes) Protons Self-assembly Smart materials
Online Access	Get full text
ISSN	1463-9076 1463-9084 1463-9084
DOI	10.1039/d0cp03981k

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Abstract	In this perspective review article, we have attempted to bring out the important current trends of research in the areas of supramolecular and suprabiomolecular photochemistry. Since the spans of the subject areas are very vast, it is impossible to cover all the aspects within the limited space of this review article. Nevertheless, efforts have been made to assimilate the basic understanding of how supramolecular interactions can significantly change the photophysical and other related physiochemical properties of chromophoric dyes and drugs, which have enormous academic and practical implications. We have discussed with reference to relevant chemical systems where supramolecularly assisted modulations in the properties of chromophoric dyes and drugs can be used or have already been used in different areas like sensing, dye/drug stabilization, drug delivery, functional materials, and aqueous dye laser systems. In supramolecular assemblies, along with their conventional photophysical properties, the acid-base properties of prototropic dyes, as well as the excited state prototautomerization and related proton transfer behavior of proton donor/acceptor dye molecules, are also largely modulated due to supramolecular interactions, which are often reflected very explicitly through changes in their absorption and fluorescence characteristics, providing us many useful insights into these chemical systems and bringing out intriguing applications of such changes in different applied areas. Another interesting research area in supramolecular photochemistry is the excitation energy transfer from the donor to acceptor moieties in self-assembled systems which have immense importance in light harvesting applications, mimicking natural photosynthetic systems. In this review article, we have discussed varieties of these aspects, highlighting their academic and applied implications. We have tried to emphasize the progress made so far and thus to bring out future research perspectives in the subject areas concerned, which are anticipated to find many useful applications in areas like sensors, catalysis, electronic devices, pharmaceuticals, drug formulations, nanomedicine, light harvesting, and smart materials. This review article brings out current research trends in supramolecular and suprabiomolecular photochemistry, highlighting their possible applications in different areas.
AbstractList	In this perspective review article, we have attempted to bring out the important current trends of research in the areas of supramolecular and suprabiomolecular photochemistry. Since the spans of the subject areas are very vast, it is impossible to cover all the aspects within the limited space of this review article. Nevertheless, efforts have been made to assimilate the basic understanding of how supramolecular interactions can significantly change the photophysical and other related physiochemical properties of chromophoric dyes and drugs, which have enormous academic and practical implications. We have discussed with reference to relevant chemical systems where supramolecularly assisted modulations in the properties of chromophoric dyes and drugs can be used or have already been used in different areas like sensing, dye/drug stabilization, drug delivery, functional materials, and aqueous dye laser systems. In supramolecular assemblies, along with their conventional photophysical properties, the acid–base properties of prototropic dyes, as well as the excited state prototautomerization and related proton transfer behavior of proton donor/acceptor dye molecules, are also largely modulated due to supramolecular interactions, which are often reflected very explicitly through changes in their absorption and fluorescence characteristics, providing us many useful insights into these chemical systems and bringing out intriguing applications of such changes in different applied areas. Another interesting research area in supramolecular photochemistry is the excitation energy transfer from the donor to acceptor moieties in self-assembled systems which have immense importance in light harvesting applications, mimicking natural photosynthetic systems. In this review article, we have discussed varieties of these aspects, highlighting their academic and applied implications. We have tried to emphasize the progress made so far and thus to bring out future research perspectives in the subject areas concerned, which are anticipated to find many useful applications in areas like sensors, catalysis, electronic devices, pharmaceuticals, drug formulations, nanomedicine, light harvesting, and smart materials. In this perspective review article, we have attempted to bring out the important current trends of research in the areas of supramolecular and suprabiomolecular photochemistry. Since the spans of the subject areas are very vast, it is impossible to cover all the aspects within the limited space of this review article. Nevertheless, efforts have been made to assimilate the basic understanding of how supramolecular interactions can significantly change the photophysical and other related physiochemical properties of chromophoric dyes and drugs, which have enormous academic and practical implications. We have discussed with reference to relevant chemical systems where supramolecularly assisted modulations in the properties of chromophoric dyes and drugs can be used or have already been used in different areas like sensing, dye/drug stabilization, drug delivery, functional materials, and aqueous dye laser systems. In supramolecular assemblies, along with their conventional photophysical properties, the acid-base properties of prototropic dyes, as well as the excited state prototautomerization and related proton transfer behavior of proton donor/acceptor dye molecules, are also largely modulated due to supramolecular interactions, which are often reflected very explicitly through changes in their absorption and fluorescence characteristics, providing us many useful insights into these chemical systems and bringing out intriguing applications of such changes in different applied areas. Another interesting research area in supramolecular photochemistry is the excitation energy transfer from the donor to acceptor moieties in self-assembled systems which have immense importance in light harvesting applications, mimicking natural photosynthetic systems. In this review article, we have discussed varieties of these aspects, highlighting their academic and applied implications. We have tried to emphasize the progress made so far and thus to bring out future research perspectives in the subject areas concerned, which are anticipated to find many useful applications in areas like sensors, catalysis, electronic devices, pharmaceuticals, drug formulations, nanomedicine, light harvesting, and smart materials. This review article brings out current research trends in supramolecular and suprabiomolecular photochemistry, highlighting their possible applications in different areas. In this perspective review article, we have attempted to bring out the important current trends of research in the areas of supramolecular and suprabiomolecular photochemistry. Since the spans of the subject areas are very vast, it is impossible to cover all the aspects within the limited space of this review article. Nevertheless, efforts have been made to assimilate the basic understanding of how supramolecular interactions can significantly change the photophysical and other related physiochemical properties of chromophoric dyes and drugs, which have enormous academic and practical implications. We have discussed with reference to relevant chemical systems where supramolecularly assisted modulations in the properties of chromophoric dyes and drugs can be used or have already been used in different areas like sensing, dye/drug stabilization, drug delivery, functional materials, and aqueous dye laser systems. In supramolecular assemblies, along with their conventional photophysical properties, the acid-base properties of prototropic dyes, as well as the excited state prototautomerization and related proton transfer behavior of proton donor/acceptor dye molecules, are also largely modulated due to supramolecular interactions, which are often reflected very explicitly through changes in their absorption and fluorescence characteristics, providing us many useful insights into these chemical systems and bringing out intriguing applications of such changes in different applied areas. Another interesting research area in supramolecular photochemistry is the excitation energy transfer from the donor to acceptor moieties in self-assembled systems which have immense importance in light harvesting applications, mimicking natural photosynthetic systems. In this review article, we have discussed varieties of these aspects, highlighting their academic and applied implications. We have tried to emphasize the progress made so far and thus to bring out future research perspectives in the subject areas concerned, which are anticipated to find many useful applications in areas like sensors, catalysis, electronic devices, pharmaceuticals, drug formulations, nanomedicine, light harvesting, and smart materials.In this perspective review article, we have attempted to bring out the important current trends of research in the areas of supramolecular and suprabiomolecular photochemistry. Since the spans of the subject areas are very vast, it is impossible to cover all the aspects within the limited space of this review article. Nevertheless, efforts have been made to assimilate the basic understanding of how supramolecular interactions can significantly change the photophysical and other related physiochemical properties of chromophoric dyes and drugs, which have enormous academic and practical implications. We have discussed with reference to relevant chemical systems where supramolecularly assisted modulations in the properties of chromophoric dyes and drugs can be used or have already been used in different areas like sensing, dye/drug stabilization, drug delivery, functional materials, and aqueous dye laser systems. In supramolecular assemblies, along with their conventional photophysical properties, the acid-base properties of prototropic dyes, as well as the excited state prototautomerization and related proton transfer behavior of proton donor/acceptor dye molecules, are also largely modulated due to supramolecular interactions, which are often reflected very explicitly through changes in their absorption and fluorescence characteristics, providing us many useful insights into these chemical systems and bringing out intriguing applications of such changes in different applied areas. Another interesting research area in supramolecular photochemistry is the excitation energy transfer from the donor to acceptor moieties in self-assembled systems which have immense importance in light harvesting applications, mimicking natural photosynthetic systems. In this review article, we have discussed varieties of these aspects, highlighting their academic and applied implications. We have tried to emphasize the progress made so far and thus to bring out future research perspectives in the subject areas concerned, which are anticipated to find many useful applications in areas like sensors, catalysis, electronic devices, pharmaceuticals, drug formulations, nanomedicine, light harvesting, and smart materials.
Author	Dutta Choudhury, Sharmistha Pal, Haridas
AuthorAffiliation	Radiation & Photochemistry Division Bhabha Atomic Research Centre Homi Bhabha National Institute Anushaktinagar Analytical Chemistry Division
AuthorAffiliation_xml	– name: Homi Bhabha National Institute – name: Bhabha Atomic Research Centre – name: Anushaktinagar – name: Radiation & Photochemistry Division – name: Analytical Chemistry Division
Author_xml	– sequence: 1 givenname: Sharmistha surname: Dutta Choudhury fullname: Dutta Choudhury, Sharmistha – sequence: 2 givenname: Haridas surname: Pal fullname: Pal, Haridas
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/33112299$$D View this record in MEDLINE/PubMed
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Notes	Sharmistha Dutta Choudhury is a Scientific Officer at Bhabha Atomic Research Centre, Mumbai. She carried out her doctoral research at Saha Institute of Nuclear Physics, Kolkata, and received her PhD from Jadavpur University. She was a visiting Research Fellow in Professor Lakowicz's group at the University of Maryland, Baltimore. Her research interests include the study of excited-state processes of chromophoric dyes, photophysics in supramolecular systems, and fluorophore-plasmon interactions. She has received Young Scientist Awards in Chemical Sciences from the Indian Science Academies, and the Department of Atomic Energy. She is also the recipient of a SERB Women Excellence Research Grant Award. Dr Haridas Pal did his PhD (1992) in the University of Mumbai and PDF (1994-1996) at the Institute of Molecular Sciences, Okazaki, Japan, and was a visiting scientist (2004-2005) at the University of Heidelberg. His major research interests include fast and ultrafast electron and proton transfer processes, solvatochromism, supramolecular photochemistry and single molecule spectroscopy. He was awarded with a "Homi Bhabha Science & Technology Award (2008)" by the Department of Atomic Energy and a "Bronze Medal (2011)" by the Chemical Research Society of India. He is also the elected fellow of the Maharashtra Academy of Sciences (2005) and the National Academy of Sciences, India (2005). ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 ObjectType-Review-3 content type line 23
ORCID	0000-0003-4000-4930 0000-0002-9295-0198
PMID	33112299
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PQPubID	2047499
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PublicationDate	20201028
PublicationDateYYYYMMDD	2020-10-28
PublicationDate_xml	– month: 10 year: 2020 text: 20201028 day: 28
PublicationDecade	2020
PublicationPlace	England
PublicationPlace_xml	– name: England – name: Cambridge
PublicationTitle	Physical chemistry chemical physics : PCCP
PublicationTitleAlternate	Phys Chem Chem Phys
PublicationYear	2020
Publisher	Royal Society of Chemistry
Publisher_xml	– name: Royal Society of Chemistry
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SubjectTerms	Drug delivery systems Dye lasers Dyes Electronic devices Energy Transfer Fluorescence Fluorescent Dyes - chemistry Fluorescent Dyes - radiation effects Functional materials Light Photochemistry Photochemistry - instrumentation Photosynthesis Physiochemistry Properties (attributes) Protons Self-assembly Smart materials
Title	Supramolecular and suprabiomolecular photochemistry: a perspective overview
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