D. Rayane scite author profile

By developing a new method for synthesizing atomically monodisperse Au15 nanoclusters stabilized with glutathione molecules and using the current state-of-the-art methods for synthesizing monodisperse protected Au25 nanoclusters, we investigated their nonlinear optical (NLO) properties after two-photon absorption. The two-photon emission spectra and the first hyperpolarizabilities of these particles were obtained using, in particular, a hyper-Rayleigh scattering technique. The influence on NLO of the excitation wavelength, the size as well as the nature of the ligands is also explored and discussed. Au15, the smallest stable thiolated gold nanocluster, presents remarkable nonlinear properties with respect to two-photon processes. The two-photon absorption cross-section at 780 nm for Au15 is ∼65,700 GM. This experimental cross-section value points to a quantum yield for two-photon emission of about 3 × 10(-7) at 475 nm for Au15. The first hyperpolarizability β for Au15 clusters (509 × 10(-30) esu), as compared to Au25 clusters (128 × 10(-30) esu), is larger considering the difference in the number of gold atoms. Also, 10(30) β per atom values reported for Au15 and Au25 clusters are more than two orders of magnitude larger than the values reported for Au NPs in the size range 10-50 nm, outlining the quantum cluster regime.

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Direct measurement of the electric polarizability of isolated C60 molecules

Antoine

et al. 1999

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Synthesis, characterization and optical properties of low nuclearity liganded silver clusters: Ag31(SG)19 and Ag15(SG)11

et al. 2013

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We report a simple synthesis of silver:glutathione (Ag:SG) clusters using a cyclic reduction under oxidative conditions. Two syntheses are described which lead to solutions containing well-defined Ag31(SG)19 and Ag15(SG)11 clusters that have been characterized by mass spectrometry. The optical properties of silver:glutathione (Ag:SG) cluster solutions have been investigated experimentally. In particular, the solution containing Ag15(SG)11 clusters shows a bright and photostable emission. For Ag31(SG)19 and Ag15(SG)11 clusters, the comparison of experimental findings with DFT and TDDFT calculations allowed us to reveal the structural and electronic properties of such low nuclearity liganded silver clusters.

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Tuning Ag₂₉ nanocluster light emission from red to blue with one and two-photon excitation

et al. 2016

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We demonstrate that the tuning of the light emission from red to blue in dihydrolipoic acid (DHLA) capped Ag29 nanoclusters can be trigged with one and two photon excitations. The cluster stoichiometry was determined with mass spectrometry and found to be Ag29(DHLA)12. In a detailed optical investigation, we show that these silver nanoclusters exhibit a strong red photoluminescence visible to the naked eye and characterized by a quantum yield of nearly ∼2% upon one-photon excitation. In the nonlinear optical (NLO) study of the properties of the clusters, the two-photon excited fluorescence spectra were recorded and their first hyperpolarizability obtained. The two-photon absorption cross-section at ∼800 nm for Ag29(DHLA)12 is higher than 10(4) GM and the hyperpolarizability is 106 × 10(-30) esu at the same excitation wavelength. The two-photon excited fluorescence spectrum appears strongly blue-shifted as compared to the one-photon excited spectrum, displaying a broad band between 400 and 700 nm. The density functional theory (DFT) provides insight into the structural and electronic properties of Ag29(DHLA)12 as well as into interplay between metallic subunit or core and ligands which is responsible for unique optical properties.

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Electric dipole of metal–benzene sandwiches

Rayane

Allouche

Antoine

et al. 2003

Chemical Physics Letters

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Permanent Electric Dipole and Conformation of Unsolvated Tryptophan

et al. 2001

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Measurements of lithium cluster ionization potentials

Dugourd

Rayane

Labastie

et al. 1992

Chemical Physics Letters

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Asymmetric Top Rotors in Electric Fields: Influence of Chaos and Collisions in Molecular Beam Deflection Experiments

et al. 2005

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We report on electric deflection experiments of structural isomers of aminobenzonitrile. They are used as models to study the influence of the asymmetry of a molecule on the molecule-electric field interaction. Experimental deflection profiles are compared to Stark effect calculations. We found increasing deviations from the calculated Stark effect behavior with increasing asymmetry. This deviation is induced by interactions with other particles and is directly related to the chaotic behavior of the rotational motion of asymmetric rotors in a static electric field.

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D. Rayane

Non-linear optical properties of gold quantum clusters. The smaller the better

Direct measurement of the electric polarizability of isolated C60 molecules

Synthesis, characterization and optical properties of low nuclearity liganded silver clusters: Ag31(SG)19 and Ag15(SG)11

Tuning Ag₂₉ nanocluster light emission from red to blue with one and two-photon excitation

Electric dipole of metal–benzene sandwiches

Permanent Electric Dipole and Conformation of Unsolvated Tryptophan

Measurements of lithium cluster ionization potentials

Asymmetric Top Rotors in Electric Fields: Influence of Chaos and Collisions in Molecular Beam Deflection Experiments

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D. Rayane

Non-linear optical properties of gold quantum clusters. The smaller the better

Direct measurement of the electric polarizability of isolated C60 molecules

Synthesis, characterization and optical properties of low nuclearity liganded silver clusters: Ag31(SG)19 and Ag15(SG)11

Tuning Ag29 nanocluster light emission from red to blue with one and two-photon excitation

Electric dipole of metal–benzene sandwiches

Permanent Electric Dipole and Conformation of Unsolvated Tryptophan

Measurements of lithium cluster ionization potentials

Asymmetric Top Rotors in Electric Fields: Influence of Chaos and Collisions in Molecular Beam Deflection Experiments

Contact Info

Product

Resources

About

Tuning Ag₂₉ nanocluster light emission from red to blue with one and two-photon excitation