Giant Amplification of Photoswitching by a Few Photons in Fluorescent Photochromic Organic Nanoparticles

Jia Su; Tuyoshi Fukaminato; Jean Pierre Placial; Tsunenobu Onodera; Ryuju Suzuki; Hidetoshi Oikawa; Arnaud Brosseau; François Brisset; Robert Pansu; Keitaro Nakatani; Rémi Métivier

doi:10.1002/anie.201510600

Giant Amplification of Photoswitching by a Few Photons in Fluorescent Photochromic Organic Nanoparticles

Jia Su, Tuyoshi Fukaminato, Jean Pierre Placial, Tsunenobu Onodera, Ryuju Suzuki, Hidetoshi Oikawa, Arnaud Brosseau, François Brisset, Robert Pansu, Keitaro Nakatani, Rémi Métivier

Research output: Contribution to journal › Article › peer-review

96 Citations (Scopus)

Abstract

Controlling or switching the optical signal from a large collection of molecules with the minimum of photons represents an extremely attractive concept. Promising fundamental and practical applications may be derived from such a photon-saving principle. With this aim in mind, we have prepared fluorescent photochromic organic nanoparticles (NPs), showing bright red emission, complete ON-OFF contrast with full reversibility, and excellent fatigue resistance. Most interestingly, upon successive UV and visible light irradiation, the NPs exhibit a complete fluorescence quenching and recovery at very low photochromic conversion levels (<5 %), leading to the fluorescence photoswitching of 420±20 molecules for only one converted photochromic molecule. This "giant amplification of fluorescence photoswitching" originates from efficient intermolecular energy-transfer processes within the NPs.

Original language	English
Pages (from-to)	3662-3666
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	55
Issue number	11
DOIs	https://doi.org/10.1002/anie.201510600
Publication status	Published - 2016 Jan 28

Keywords

amplification
FRET
nanoparticles
photochromism
photoswitching

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title = "Giant Amplification of Photoswitching by a Few Photons in Fluorescent Photochromic Organic Nanoparticles",

abstract = "Controlling or switching the optical signal from a large collection of molecules with the minimum of photons represents an extremely attractive concept. Promising fundamental and practical applications may be derived from such a photon-saving principle. With this aim in mind, we have prepared fluorescent photochromic organic nanoparticles (NPs), showing bright red emission, complete ON-OFF contrast with full reversibility, and excellent fatigue resistance. Most interestingly, upon successive UV and visible light irradiation, the NPs exhibit a complete fluorescence quenching and recovery at very low photochromic conversion levels (<5 %), leading to the fluorescence photoswitching of 420±20 molecules for only one converted photochromic molecule. This {"}giant amplification of fluorescence photoswitching{"} originates from efficient intermolecular energy-transfer processes within the NPs.",

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AU - Su, Jia

AU - Fukaminato, Tuyoshi

AU - Placial, Jean Pierre

AU - Onodera, Tsunenobu

AU - Suzuki, Ryuju

AU - Oikawa, Hidetoshi

AU - Brosseau, Arnaud

AU - Brisset, François

AU - Pansu, Robert

AU - Nakatani, Keitaro

AU - Métivier, Rémi

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N2 - Controlling or switching the optical signal from a large collection of molecules with the minimum of photons represents an extremely attractive concept. Promising fundamental and practical applications may be derived from such a photon-saving principle. With this aim in mind, we have prepared fluorescent photochromic organic nanoparticles (NPs), showing bright red emission, complete ON-OFF contrast with full reversibility, and excellent fatigue resistance. Most interestingly, upon successive UV and visible light irradiation, the NPs exhibit a complete fluorescence quenching and recovery at very low photochromic conversion levels (<5 %), leading to the fluorescence photoswitching of 420±20 molecules for only one converted photochromic molecule. This "giant amplification of fluorescence photoswitching" originates from efficient intermolecular energy-transfer processes within the NPs.

AB - Controlling or switching the optical signal from a large collection of molecules with the minimum of photons represents an extremely attractive concept. Promising fundamental and practical applications may be derived from such a photon-saving principle. With this aim in mind, we have prepared fluorescent photochromic organic nanoparticles (NPs), showing bright red emission, complete ON-OFF contrast with full reversibility, and excellent fatigue resistance. Most interestingly, upon successive UV and visible light irradiation, the NPs exhibit a complete fluorescence quenching and recovery at very low photochromic conversion levels (<5 %), leading to the fluorescence photoswitching of 420±20 molecules for only one converted photochromic molecule. This "giant amplification of fluorescence photoswitching" originates from efficient intermolecular energy-transfer processes within the NPs.

KW - amplification

KW - FRET

KW - nanoparticles

KW - photochromism

KW - photoswitching

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Giant Amplification of Photoswitching by a Few Photons in Fluorescent Photochromic Organic Nanoparticles

Abstract

Keywords

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