Synthesis and Characterization of Alkoxysilane-Bearing Photoreversible Cinnamic Side Groups: A Promising Building-Block for the Design of Multifunctional Silica Nanoparticles

The present study reports on the synthesis of a new alkoxysilane-bearing light-responsive cinnamyl group and its application as a surface functionalization agent for the development of SiO2 nanoparticles (NPs) with photoreversible tails. In detail, cinnamic acid (CINN) was activated with N-hydroxysu...

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Veröffentlicht in:	Langmuir 2022-12, Vol.38 (50), p.15662-15671
Hauptverfasser:	Orsini, Sara Fernanda, Cipolla, Laura, Petroni, Simona, Dirè, Sandra, Ceccato, Riccardo, Callone, Emanuela, Bongiovanni, Roberta, Dalle Vacche, Sara, Di Credico, Barbara, Mostoni, Silvia, Nisticò, Roberto, Raimondo, Luisa, Scotti, Roberto, D’Arienzo, Massimiliano
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Sprache:	eng
Schlagworte:	Multifunctional Nanoparticles Nanoparticles - chemistry Propylamines - chemistry Silicon Dioxide - chemistry
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creator	Orsini, Sara Fernanda Cipolla, Laura Petroni, Simona Dirè, Sandra Ceccato, Riccardo Callone, Emanuela Bongiovanni, Roberta Dalle Vacche, Sara Di Credico, Barbara Mostoni, Silvia Nisticò, Roberto Raimondo, Luisa Scotti, Roberto D’Arienzo, Massimiliano
description	The present study reports on the synthesis of a new alkoxysilane-bearing light-responsive cinnamyl group and its application as a surface functionalization agent for the development of SiO2 nanoparticles (NPs) with photoreversible tails. In detail, cinnamic acid (CINN) was activated with N-hydroxysuccinimide (NHS) to obtain the corresponding NHS-ester (CINN–NHS). Subsequently, the amine group of 3-aminopropyltriethoxysilane (APTES) was acylated with CINN–NHS leading to the generation of a novel organosilane, CINN-APTES, which was then exploited for decorating SiO2 NPs. The covalent bond to the silica surface was confirmed by solid state NMR, whereas thermogravimetric analysis unveiled a functionalization degree much higher compared to that achieved by a conventional double-step post-grafting procedure. In light of these intriguing results, the strategy was successfully extended to naturally occurring sepiolite fibers, widely employed as fillers in technological applications. Finally, a preliminary proof of concept of the photoreversibility of the obtained SiO2@CINN-APTES system has been carried out through UV diffuse reflectance. The overall outcomes prove the consistency and the versatility of the methodological protocol adopted, which appears promising for the design of hybrid NPs to be employed as building blocks for photoresponsive materials with the ability to change their molecular structure and subsequent properties when exposed to different light stimuli.
doi_str_mv	10.1021/acs.langmuir.2c02472
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In detail, cinnamic acid (CINN) was activated with N-hydroxysuccinimide (NHS) to obtain the corresponding NHS-ester (CINN–NHS). Subsequently, the amine group of 3-aminopropyltriethoxysilane (APTES) was acylated with CINN–NHS leading to the generation of a novel organosilane, CINN-APTES, which was then exploited for decorating SiO2 NPs. The covalent bond to the silica surface was confirmed by solid state NMR, whereas thermogravimetric analysis unveiled a functionalization degree much higher compared to that achieved by a conventional double-step post-grafting procedure. In light of these intriguing results, the strategy was successfully extended to naturally occurring sepiolite fibers, widely employed as fillers in technological applications. Finally, a preliminary proof of concept of the photoreversibility of the obtained SiO2@CINN-APTES system has been carried out through UV diffuse reflectance. 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subjects	Multifunctional Nanoparticles Nanoparticles - chemistry Propylamines - chemistry Silicon Dioxide - chemistry
title	Synthesis and Characterization of Alkoxysilane-Bearing Photoreversible Cinnamic Side Groups: A Promising Building-Block for the Design of Multifunctional Silica Nanoparticles
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