Sequential Uncaging with Green Light can be Achieved by Fine-Tuning the Structure of a Dicyanocoumarin Chromophore

Albert Gandioso; Marta Palau; Alba Nin-Hill; Ivanna Melnyk; Carme Rovira; Santi Nonell; Dolores Velasco; Jaume García-Amorós; Vicente Marchán

doi:10.1002/open.201700067

Sequential Uncaging with Green Light can be Achieved by Fine-Tuning the Structure of a Dicyanocoumarin Chromophore

Albert Gandioso
, Marta Palau
, Alba Nin-Hill
, Ivanna Melnyk
, Carme Rovira
, Santi Nonell
, Dolores Velasco
, Jaume García-Amorós
, Vicente Marchán^*

^*Autor/a de correspondencia de este trabajo

Producción científica: Artículo en revista indizada › Artículo › revisión exhaustiva

35 Citas (Scopus)

Resumen

We report the synthesis and photochemical properties of a series of dicyanocoumarinylmethyl (DEAdcCM)- and dicyanocoumarinylethyl (DEAdcCE)-based photocages of carboxylic acids and amines with absorption maximum around 500 nm. Photolysis studies with green light have demonstrated that the structure of the coumarin chromophore as well as the nature of the leaving group and the type of bond to be photocleaved (ester or carbamate) have a strong influence on the rate and efficiency of the uncaging process. These experimental observations were also supported by DFT calculations. Such differences in deprotection kinetics have been exploited to sequentially photolyze two dicyanocoumarin-caged model compounds (e.g., benzoic acid and ethylamine), and open the way to increasing the number of functional levels that can be addressed with light in a single system, particularly when combining dicyanocoumarin caging groups with other photocleavable protecting groups, which remain intact under green light irradiation.

Idioma original	Inglés
Páginas (desde-hasta)	375-384
Número de páginas	10
Publicación	ChemistryOpen
Volumen	6
N.º	3
DOI	https://doi.org/10.1002/open.201700067
Estado	Publicada - jun 2017

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@article{e3a6b167471549beb6a577ef7650f961,

title = "Sequential Uncaging with Green Light can be Achieved by Fine-Tuning the Structure of a Dicyanocoumarin Chromophore",

abstract = "We report the synthesis and photochemical properties of a series of dicyanocoumarinylmethyl (DEAdcCM)- and dicyanocoumarinylethyl (DEAdcCE)-based photocages of carboxylic acids and amines with absorption maximum around 500 nm. Photolysis studies with green light have demonstrated that the structure of the coumarin chromophore as well as the nature of the leaving group and the type of bond to be photocleaved (ester or carbamate) have a strong influence on the rate and efficiency of the uncaging process. These experimental observations were also supported by DFT calculations. Such differences in deprotection kinetics have been exploited to sequentially photolyze two dicyanocoumarin-caged model compounds (e.g., benzoic acid and ethylamine), and open the way to increasing the number of functional levels that can be addressed with light in a single system, particularly when combining dicyanocoumarin caging groups with other photocleavable protecting groups, which remain intact under green light irradiation.",

keywords = "UV/Vis spectroscopy, caged compounds, coumarins, photolysis, protecting groups",

author = "Albert Gandioso and Marta Palau and Alba Nin-Hill and Ivanna Melnyk and Carme Rovira and Santi Nonell and Dolores Velasco and Jaume Garc{\'i}a-Amor{\'o}s and Vicente March{\'a}n",

note = "Funding Information: This work was supported by funds from the Spanish Ministerio de Econom{\'i}a y Competitividad (grants CTQ2014-52658-R and CTQ2015-65770-P MINECO/FEDER) and the Generalitat de Catalunya (2014SGR187 and XRB). The authors acknowledge the assistance of Dr. Irene Fern{\'a}ndez and Laura Ortiz (MS), and Dr. Francisco C{\'a}rdenas (NMR) from CCiTUB. A.G. is a recipient fellow of the University of Barcelona. Publisher Copyright: {\textcopyright} 2017 The Authors. Published by Wiley-VCH Verlag GmbH \& Co. KGaA.",

year = "2017",

month = jun,

doi = "10.1002/open.201700067",

language = "English",

volume = "6",

pages = "375--384",

journal = "ChemistryOpen",

issn = "2191-1363",

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T1 - Sequential Uncaging with Green Light can be Achieved by Fine-Tuning the Structure of a Dicyanocoumarin Chromophore

AU - Gandioso, Albert

AU - Palau, Marta

AU - Nin-Hill, Alba

AU - Melnyk, Ivanna

AU - Rovira, Carme

AU - Nonell, Santi

AU - Velasco, Dolores

AU - García-Amorós, Jaume

AU - Marchán, Vicente

N1 - Funding Information: This work was supported by funds from the Spanish Ministerio de Economía y Competitividad (grants CTQ2014-52658-R and CTQ2015-65770-P MINECO/FEDER) and the Generalitat de Catalunya (2014SGR187 and XRB). The authors acknowledge the assistance of Dr. Irene Fernández and Laura Ortiz (MS), and Dr. Francisco Cárdenas (NMR) from CCiTUB. A.G. is a recipient fellow of the University of Barcelona. Publisher Copyright: © 2017 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.

PY - 2017/6

Y1 - 2017/6

N2 - We report the synthesis and photochemical properties of a series of dicyanocoumarinylmethyl (DEAdcCM)- and dicyanocoumarinylethyl (DEAdcCE)-based photocages of carboxylic acids and amines with absorption maximum around 500 nm. Photolysis studies with green light have demonstrated that the structure of the coumarin chromophore as well as the nature of the leaving group and the type of bond to be photocleaved (ester or carbamate) have a strong influence on the rate and efficiency of the uncaging process. These experimental observations were also supported by DFT calculations. Such differences in deprotection kinetics have been exploited to sequentially photolyze two dicyanocoumarin-caged model compounds (e.g., benzoic acid and ethylamine), and open the way to increasing the number of functional levels that can be addressed with light in a single system, particularly when combining dicyanocoumarin caging groups with other photocleavable protecting groups, which remain intact under green light irradiation.

AB - We report the synthesis and photochemical properties of a series of dicyanocoumarinylmethyl (DEAdcCM)- and dicyanocoumarinylethyl (DEAdcCE)-based photocages of carboxylic acids and amines with absorption maximum around 500 nm. Photolysis studies with green light have demonstrated that the structure of the coumarin chromophore as well as the nature of the leaving group and the type of bond to be photocleaved (ester or carbamate) have a strong influence on the rate and efficiency of the uncaging process. These experimental observations were also supported by DFT calculations. Such differences in deprotection kinetics have been exploited to sequentially photolyze two dicyanocoumarin-caged model compounds (e.g., benzoic acid and ethylamine), and open the way to increasing the number of functional levels that can be addressed with light in a single system, particularly when combining dicyanocoumarin caging groups with other photocleavable protecting groups, which remain intact under green light irradiation.

KW - UV/Vis spectroscopy

KW - caged compounds

KW - coumarins

KW - photolysis

KW - protecting groups

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DO - 10.1002/open.201700067

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AN - SCOPUS:85018393535

SN - 2191-1363

VL - 6

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JO - ChemistryOpen

JF - ChemistryOpen

IS - 3

ER -

Sequential Uncaging with Green Light can be Achieved by Fine-Tuning the Structure of a Dicyanocoumarin Chromophore

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