High-Performance Optical Power Limiting Filters at Telecommunication Wavelengths: When Aza-BODIPY Dyes Bond to Sol–Gel Materials

An optical power limiter (OPL) device can change its optical properties depending on the input light intensity: it is ideally transparent at low incident power and presents a decrease in transmission when the incident intensity increases. This phenomenon can be used for protection of optical sensors...

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Veröffentlicht in:	Journal of physical chemistry. C 2020-11, Vol.124 (44), p.24344-24350
Hauptverfasser:	David, Sylvain, Chateau, Denis, Chang, Hao-Jung, Karlsson, Linda H, Bondar, Mykhailo V, Lopes, Cesar, Le Guennic, Boris, Jacquemin, Denis, Berginc, Gérard, Maury, Olivier, Parola, Stéphane, Andraud, Chantal
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Schlagworte:	C: Plasmonics Optical, Magnetic, and Hybrid Materials Chemical Sciences
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creator	David, Sylvain Chateau, Denis Chang, Hao-Jung Karlsson, Linda H Bondar, Mykhailo V Lopes, Cesar Le Guennic, Boris Jacquemin, Denis Berginc, Gérard Maury, Olivier Parola, Stéphane Andraud, Chantal
description	An optical power limiter (OPL) device can change its optical properties depending on the input light intensity: it is ideally transparent at low incident power and presents a decrease in transmission when the incident intensity increases. This phenomenon can be used for protection of optical sensors. This paper presents the design of a functionalized aza-BODIPY chromophore, combining good nonlinear two-photon absorption and exited-state absorption in the short-wave infrared range (1300–1600 nm). The aza-BODIPY chromophores also show excellent thermal and photochemical stabilities. Their covalent grafting to a sol–gel matrix leads to the formation of class II sol–gel materials that allows for extraordinary doping concentrations of up to 280 mol·L–1 (40 wt %), which results in highly efficient OPL performances at 1550 nm.
doi_str_mv	10.1021/acs.jpcc.0c08006
format	Article
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title	High-Performance Optical Power Limiting Filters at Telecommunication Wavelengths: When Aza-BODIPY Dyes Bond to Sol–Gel Materials
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