Author
C. Maurel
Bio: C. Maurel is an academic researcher from University of Bordeaux. The author has contributed to research in topics: Irradiation & Chalcogenide glass. The author has an hindex of 2, co-authored 2 publications receiving 70 citations.
Topics: Irradiation, Chalcogenide glass, Luminescence, Infrared, Zinc phosphate
Papers
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TL;DR: In this article, the authors report on exposing a photosensitive zinc phosphate glass containing silver to different radiation (electron, gamma, optical) using nanosecond ultraviolet (UV) and femtosecond infrared (IR) laser.
69 citations
TL;DR: In this article, active rare earth doped oxysulfide glasses are shown to be photo-sensitive to NIR femtosecond laser light with the magnitude of the photo-sensitivity dependent on the glass Sb content and O/S ratio.
10 citations
Cited by
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TL;DR: This critical review of studies on silver nanodots in inert environments and in aqueous solutions is revisited with an effort to decipher the relations between their chemical/photophysical properties and their structures.
Abstract: Though creation and characterization of water soluble luminescent silver nanodots were achieved only in the past decade, a large variety of emitters in diverse scaffolds have been reported. Photophysical properties approach those of semiconductor quantum dots, but relatively small sizes are retained. Because of these properties, silver nanodots are finding ever-expanding roles as probes and biolabels. In this critical review we revisit the studies on silver nanodots in inert environments and in aqueous solutions. The recent advances detailing their chemical and physical properties of silver nanodots are highlighted with an effort to decipher the relations between their chemical/photophysical properties and their structures. The primary results about their biological applications are discussed here as well, especially relating to their chemical and photophysical behaviours in biological environments (216 references).
515 citations
TL;DR: In this paper, the authors present a critical overview of the current state of the art in studying femtosecond laser induced various phenomena in transparent materials, including their physical and chemical mechanisms, the applications and limitations as well as the future research trends.
214 citations
TL;DR: [∗] Dr. Canioni Centre de Physique Moleculaire Optique et Hertzienne University of Bordeaux 351 Cours de the Liberation, 33405 Talence (France) E-mail: l.canioni@cpmoh.u-bordeaux1.fr
Abstract: [∗] Dr. A. Royon , Dr. M. Bellec , G. Papon , Dr. B. Bousquet , Prof. L. Canioni Centre de Physique Moleculaire Optique et Hertzienne University of Bordeaux 351 Cours de la Liberation, 33405 Talence (France) E-mail: l.canioni@cpmoh.u-bordeaux1.fr K. Bourhis , Dr. T. Cardinal Institut de Chimie de la Matiere Condensee de Bordeaux University of Bordeaux 87 Avenue du Docteur Schweitzer, 33608 Pessac (France) Dr. Y. Deshayes Laboratoire de l ′ Integration du Materiau au Systeme University of Bordeaux 351 Cours de la Liberation, 33405 Talence (France)
198 citations
TL;DR: In this article, three-dimensional fluorescent nanostructures are photoinduced by a near-infrared high repetition rate femtosecond laser in a silver-containing femto-photoluminescent glass.
Abstract: Three-dimensional fluorescent nanostructures are photoinduced by a near-infrared high repetition rate femtosecond laser in a silver-containing femto-photoluminescent glass. By adjusting the laser dose (fluence, number of pulses, and repetition rate), these stabilized intense fluorescent structures, composed of silver clusters, can be achieved with a perfect control of the luminescence intensity, the emission spectrum, and the spatial distribution at the nanometer scale. This novel approach opens the way to the fabrication of stable fluorescent nanostructures in three dimensions in glass for applications in photonics and optical data storage.
76 citations