Photodynamics of Melanin Radicals: Contribution to Photoprotection by Melanin

The mechanism of very efficient relaxation of the melanin‐photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for intense investigation. The most recent study by C. Grieco, F. Kohl, and B. Kohler, entitled “Ultrafast radical photogeneration pathways in e...

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Published in	Photochemistry and photobiology Vol. 99; no. 2; pp. 866 - 868
Main Author	Sarna, Tadeusz
Format	Journal Article
Language	English
Published	United States Blackwell Publishing Ltd 01.03.2023
Subjects	Absorption Absorption spectra Deactivation Dihydroxyphenylalanine Free Radicals Melanin Melanins - metabolism Photochemistry Photoexcitation Photoionization Radicals Recombination
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ISSN	0031-8655 1751-1097 1751-1097
DOI	10.1111/php.13753

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Abstract	The mechanism of very efficient relaxation of the melanin‐photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for intense investigation. The most recent study by C. Grieco, F. Kohl, and B. Kohler, entitled “Ultrafast radical photogeneration pathways in eumelanin,” addresses key issues of melanin photophysics and photochemistry. By using femtosecond broad‐band pump probe‐transient absorption measurements, the researchers were able to identify the absorption spectrum of DOPA melanin radicals for the first time and proposed two distinct mechanisms of radical formation—photoionization and photoinduced charge separation. The observed photodynamic of melanin radicals suggests a new paradigm in which the ultrafast excited state deactivation is due to the efficient recombination of melanin radicals created promptly by photoexcitation. Photoexcitation of melanin with photons of different energies leads to the ultrafast formation of melanin radicals via ionization (1) and charge separation (2) mechanisms (scheme). Although most excited states form melanin radicals possibly in <1 ps, few radicals persist beyond the nanosecond time scale due to very efficient radical recombination (figure). The results suggest a new paradigm in which the ubiquitous ultrafast excited state deactivation seen in melanins comes about through the recombination of charges or neutral radicals that are created promptly by photoexcitation.
AbstractList	The mechanism of very efficient relaxation of the melanin‐photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for intense investigation. The most recent study by C. Grieco, F. Kohl, and B. Kohler, entitled “Ultrafast radical photogeneration pathways in eumelanin,” addresses key issues of melanin photophysics and photochemistry. By using femtosecond broad‐band pump probe‐transient absorption measurements, the researchers were able to identify the absorption spectrum of DOPA melanin radicals for the first time and proposed two distinct mechanisms of radical formation—photoionization and photoinduced charge separation. The observed photodynamic of melanin radicals suggests a new paradigm in which the ultrafast excited state deactivation is due to the efficient recombination of melanin radicals created promptly by photoexcitation. Photoexcitation of melanin with photons of different energies leads to the ultrafast formation of melanin radicals via ionization (1) and charge separation (2) mechanisms (scheme). Although most excited states form melanin radicals possibly in <1 ps, few radicals persist beyond the nanosecond time scale due to very efficient radical recombination (figure). The results suggest a new paradigm in which the ubiquitous ultrafast excited state deactivation seen in melanins comes about through the recombination of charges or neutral radicals that are created promptly by photoexcitation. The mechanism of very efficient relaxation of the melanin‐photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for intense investigation. The most recent study by C. Grieco, F. Kohl, and B. Kohler, entitled “Ultrafast radical photogeneration pathways in eumelanin,” addresses key issues of melanin photophysics and photochemistry. By using femtosecond broad‐band pump probe‐transient absorption measurements, the researchers were able to identify the absorption spectrum of DOPA melanin radicals for the first time and proposed two distinct mechanisms of radical formation—photoionization and photoinduced charge separation. The observed photodynamic of melanin radicals suggests a new paradigm in which the ultrafast excited state deactivation is due to the efficient recombination of melanin radicals created promptly by photoexcitation. The mechanism of very efficient relaxation of the melanin-photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for intense investigation. The most recent study by C. Grieco, F. Kohl, and B. Kohler, entitled "Ultrafast radical photogeneration pathways in eumelanin," addresses key issues of melanin photophysics and photochemistry. By using femtosecond broad-band pump probe-transient absorption measurements, the researchers were able to identify the absorption spectrum of DOPA melanin radicals for the first time and proposed two distinct mechanisms of radical formation-photoionization and photoinduced charge separation. The observed photodynamic of melanin radicals suggests a new paradigm in which the ultrafast excited state deactivation is due to the efficient recombination of melanin radicals created promptly by photoexcitation.The mechanism of very efficient relaxation of the melanin-photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for intense investigation. The most recent study by C. Grieco, F. Kohl, and B. Kohler, entitled "Ultrafast radical photogeneration pathways in eumelanin," addresses key issues of melanin photophysics and photochemistry. By using femtosecond broad-band pump probe-transient absorption measurements, the researchers were able to identify the absorption spectrum of DOPA melanin radicals for the first time and proposed two distinct mechanisms of radical formation-photoionization and photoinduced charge separation. The observed photodynamic of melanin radicals suggests a new paradigm in which the ultrafast excited state deactivation is due to the efficient recombination of melanin radicals created promptly by photoexcitation.
Author	Sarna, Tadeusz
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Snippet	The mechanism of very efficient relaxation of the melanin‐photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for... The mechanism of very efficient relaxation of the melanin-photoexcited states, responsible for the photoprotective action of the pigment, remains a subject for...
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SubjectTerms	Absorption Absorption spectra Deactivation Dihydroxyphenylalanine Free Radicals Melanin Melanins - metabolism Photochemistry Photoexcitation Photoionization Radicals Recombination
Title	Photodynamics of Melanin Radicals: Contribution to Photoprotection by Melanin
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