Photochromic materials as a photosensitizer in reversible reactive singlet oxygen generation

Photochromism is a well-researched phenomenon that accounts for alteration in the structure, polarity, appearance and other physio-chemical properties of a compound upon light stimulation. It has proved its competence in diverse fields like ophthalmics, data storage, molecular switches, environmenta...

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Published in	Dyes and pigments Vol. 199; p. 110104
Main Authors	Gulati, Loveleen Kaur, Gulati, Gurleen Kaur, Kumar, Satish
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.03.2022
Subjects	Cancer PDT Photochromism Photodynamic therapy Photosensitizer Singlet oxygen PDT Photodynamic therapy Singlet oxygen Photochromism Photosensitizer Cancer
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Abstract	Photochromism is a well-researched phenomenon that accounts for alteration in the structure, polarity, appearance and other physio-chemical properties of a compound upon light stimulation. It has proved its competence in diverse fields like ophthalmics, data storage, molecular switches, environmental monitoring, superior bioimaging etc. Now to add another feature to its function list, photodynamic therapy (a cancer cure therapy) has been explored in the light of photochromism in this review. In recent years, PDT has become the most desirable subject of research owing to its dire need in the present scenario. Even though several reviews have been published to date, this review has yet a lot novel to offer. On account of the light/heat-responsive structural transformation, photochromic species have been found to play three different roles in advancing the efficacy of PDT– i) photochromes as photosensitizers, ii) as switches to the conventional photosensitizers and iii) as singlet oxygen reserves. Among the wide classes of photochromic molecules, spiropyran, dimethyldihydropyrene (DHP), diarylethene (DAE), azobenzene & anthracene are some that have displayed potential for exploitation as PDT agents in some or the other way. [Display omitted] •Photodynamic therapy has been discussed concerning photochromic photosensitizers.•Photochromic molecules have the potential to act as switchable photosensitizers in PDT.•Photochromic moieties can control photosensitization by conventional photosensitizers.•Photochromes have also exhibited their ability to trap singlet oxygen required to treat hypoxia.
AbstractList	Photochromism is a well-researched phenomenon that accounts for alteration in the structure, polarity, appearance and other physio-chemical properties of a compound upon light stimulation. It has proved its competence in diverse fields like ophthalmics, data storage, molecular switches, environmental monitoring, superior bioimaging etc. Now to add another feature to its function list, photodynamic therapy (a cancer cure therapy) has been explored in the light of photochromism in this review. In recent years, PDT has become the most desirable subject of research owing to its dire need in the present scenario. Even though several reviews have been published to date, this review has yet a lot novel to offer. On account of the light/heat-responsive structural transformation, photochromic species have been found to play three different roles in advancing the efficacy of PDT– i) photochromes as photosensitizers, ii) as switches to the conventional photosensitizers and iii) as singlet oxygen reserves. Among the wide classes of photochromic molecules, spiropyran, dimethyldihydropyrene (DHP), diarylethene (DAE), azobenzene & anthracene are some that have displayed potential for exploitation as PDT agents in some or the other way. [Display omitted] •Photodynamic therapy has been discussed concerning photochromic photosensitizers.•Photochromic molecules have the potential to act as switchable photosensitizers in PDT.•Photochromic moieties can control photosensitization by conventional photosensitizers.•Photochromes have also exhibited their ability to trap singlet oxygen required to treat hypoxia.
ArticleNumber	110104
Author	Gulati, Gurleen Kaur Gulati, Loveleen Kaur Kumar, Satish
Author_xml	– sequence: 1 givenname: Loveleen Kaur surname: Gulati fullname: Gulati, Loveleen Kaur organization: Department of Chemistry, St. Stephen's College, University of Delhi, Delhi, 110007, India – sequence: 2 givenname: Gurleen Kaur surname: Gulati fullname: Gulati, Gurleen Kaur organization: Department of Chemistry, St. Stephen's College, University of Delhi, Delhi, 110007, India – sequence: 3 givenname: Satish surname: Kumar fullname: Kumar, Satish email: satish@stephens.du.ac.in organization: Department of Chemistry, St. Stephen's College, University of Delhi, Delhi, 110007, India
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Snippet	Photochromism is a well-researched phenomenon that accounts for alteration in the structure, polarity, appearance and other physio-chemical properties of a...
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SubjectTerms	Cancer PDT Photochromism Photodynamic therapy Photosensitizer Singlet oxygen
Title	Photochromic materials as a photosensitizer in reversible reactive singlet oxygen generation
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