Photoswitchable Photochromic Chelating Spironaphthoxazines: Synthesis, Photophysical Properties, Quantum-Chemical Calculations, and Complexation Ability

Minkovska, Stela; Hadjichristov, Georgi B.; Neacsu, Andreea; Chihaia, Viorel; Fedorov, Yury V.

doi:10.1021/acsomega.3c06434

ACS Omega

2024

DOI: 10.1021/acsomega.3c06434

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Photoswitchable Photochromic Chelating Spironaphthoxazines: Synthesis, Photophysical Properties, Quantum-Chemical Calculations, and Complexation Ability

Stela Minkovska,

Georgi B. Hadjichristov,

Andreea Neacsu

et al.

Abstract: The stable and efficient photochromic and photoswitchable molecular systems designed from spirooxazines are of increasing scientific and practical interest because of their present and future applications in advanced technologies. Among these compounds, chelating spironaphthoxazines have received widespread attention due to their efficient optical response after complexation with some metal ions being of biomedical interest and environmental importance, as well as their good cycle performance and high reliabil… Show more

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Cited by 4 publications

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Development of strontium aluminate‐printed nonwoven fabric from recycled cotton cellulose for smart wearable photochromic applications

Al‐Qahtani,

Attia,

Al‐Senani

2024

Luminescence

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Smart photochromic and fluorescent textile refers to garments that alter their colorimetric properties in response to external light stimulus. Cotton fibers have been reported as a main resource for many textile and non‐textile industries, such as automobiles, medical devices, and furniture applications. Cotton is a natural fiber that is distinguished with breathability, softness, cheapness, and highly absorbent. However, there have been growing demands to find other resources for cotton textiles at high quality and low cost for various applications, such as sensor for harmful ultraviolet radiation. Herein, we present a novel method toward luminescent and photochromic nonwoven textiles from recycled cotton waste. Using the screen‐printing technology, a cotton fabric that is both photochromic and fluorescent was developed using aqueous inorganic phosphor nanoparticles (10–18 nm)‐containing printing paste. Both CIE Lab color coordinates and photoluminescence spectra showed that the transparent film printed on the nonwoven fabric develops a reversible green emission (519 nm) under ultraviolet light (365 nm), even at low pigment concentration (2%) in the printing paste. Colorfastness of printed fabrics showed high durability and photostability.

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Development of strontium aluminate‐printed nonwoven fabric from recycled cotton cellulose for smart wearable photochromic applications

Al‐Qahtani,

Attia,

Al‐Senani

2024

Luminescence

View full text Add to dashboard Cite

show abstract

Monitoring spirooxazine–merocyanine photoisomerization with ion-current rectifying quartz nanopipettes

Farrell,

Redmond,

Johnson

2024

Electrochemistry Communications

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Photo- and ionochromic N-acylated 2-(aminomethylene)benzo[b]thiophene-3(2H)-ones containing a terpyridine receptor

Rybalkin,

Zmeeva,

Popova

et al. 2025

Journal of Photochemistry and Photobiology A: Chemistry

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Photoswitchable Photochromic Chelating Spironaphthoxazines: Synthesis, Photophysical Properties, Quantum-Chemical Calculations, and Complexation Ability

Cited by 4 publications

References 124 publications

Development of strontium aluminate‐printed nonwoven fabric from recycled cotton cellulose for smart wearable photochromic applications

Development of strontium aluminate‐printed nonwoven fabric from recycled cotton cellulose for smart wearable photochromic applications

Monitoring spirooxazine–merocyanine photoisomerization with ion-current rectifying quartz nanopipettes

Photo- and ionochromic N-acylated 2-(aminomethylene)benzo[b]thiophene-3(2H)-ones containing a terpyridine receptor

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