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Efficient Sensing of Explosives by Using Fluorescent Nonporous Films of Oligophenyleneethynylene Derivatives Thanks to Optimal Structure Orientation and Exciton Migration
Authors:Dr. Thomas Caron  Dr. Eric Pasquinet  Dr. Arie van der Lee  Dr. Robert B. Pansu  Dr. Vincent Rouessac  Dr. Simon Clavaguera  Dr. Myriam Bouhadid  Prof. Françoise Serein‐Spirau  Prof. Jean‐Pierre Lère‐Porte  Dr. Pierre Montméat
Affiliation:1. CEA‐DAM Le Ripault, BP 16, 37260 Monts (France), Fax: (+33)?247345142;2. Institut Européen des Membranes, ENSCM‐UM2‐CNRS UMR5635 cc047 Université Montpellier, 2 Place Eugène Bataillon, 34095 Montpellier (France);3. ENS Cachan, CNRS, UMR8531 and IFR d'Alembert IFR 3242, 61, Avenue du Président Wilson, 94235 Cachan (France);4. Institut Charles Gerhardt, UMR CNRS 5253, Equipe AM2N, Ecole Nationale Supérieure de Chimie de Montpellier, 8, Rue de l'Ecole Normale, 34296 Montpellier (France)
Abstract:The fluorescence of thin films of a diimine‐substituted phenyleneethynylene compound can be efficiently quenched by nitroaromatic vapors, which is not the case for the unsubstituted parent compound. Thin‐film porosity is usually considered to be an essential factor for efficient quenching, but in the present case the origin of the quenching is completely different, as both films are nonporous and hermetic to 2,4‐dinitrotoluene (DNT) molecules. The molecular organization in the two crystallized thin films offers a low level of π stacking for both compounds, but the orientation of the phenylenethynylene fluorophore differs markedly with respect to the surface of the films. For the substituted compound, the fluorophore is almost parallel to the surface, thus making it readily available to molecules of a nitroaromatic quencher. This rationale is also observed in the case of a related compound bearing methoxy side chains instead of the long octyloxy moieties. Fluorescence‐lifetime experiments show that the efficient quenching process in the nonporous crystallized films of the substituted compound is due to a fast (<70 ps) diffusion of excitons from the bulk of the film toward the surface where they are quenched, thus providing evidence of antenna effects.
Keywords:photoluminescence  sensors  structure–  property relationships  supramolecular materials  surfaces and interfaces  thin films
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