Karin Schniererová, Jakub Orság, Martin Putala, Henrieta Stankovičová
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引用次数: 0
Abstract
Coumarins are highly polarized fluorophores with indispensable use in various applications, such as bioimaging, sensing, and optoelectronics, due to their inherent merits of tunable photophysical properties. Despite their established utility, ongoing research aims to further enhance and diversify their emission characteristics. Recent studies have demonstrated that strategic modifications, such as element replacement within the coumarin core, can significantly alter key attributes like absorption, emission, and quantum yields, all while preserving the fundamental benefits of their skeletal framework. This concept article highlights the latest progress in heteroatom substitution, including oxygen-to-nitrogen, silicon, sulfur, and carbon replacements, showcasing their impact on spectral tuning and their potential for the design of next-generation fluorophores.
ChemPhotoChemChemistry-Physical and Theoretical Chemistry
CiteScore
5.80
自引率
5.40%
发文量
165
期刊介绍:
Light plays a crucial role in natural processes and leads to exciting phenomena in molecules and materials. ChemPhotoChem welcomes exceptional international research in the entire scope of pure and applied photochemistry, photobiology, and photophysics. Our thorough editorial practices aid us in publishing authoritative research fast. We support the photochemistry community to be a leading light in science.
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