263 research outputs found

    Nanocomposite Based Multifunctional Coatings

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    High quality factor nitride-based optical cavities: microdisks with embedded GaN/Al(Ga)N quantum dots

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    We compare the quality factor values of the whispery gallery modes of microdisks incorporating GaN quantum dots (QDs) grown on AlN and AlGaN barriers by performing room temperature photoluminescence (PL) spectroscopy. The PL measurements show a large number of high Q factor (Q) resonant modes on the whole spectrum which allows us to identify the different radial mode families and to compare them with simulations. We report a considerable improvement of the Q factor which reflect the etching quality and the relatively low cavity loss by inserting QDs into the cavity. GaN/AlN QDs based microdisks show very high Q values (Q > 7000) whereas the Q factor is only up to 2000 in microdisks embedding QDs grown on AlGaN barrier layer. We attribute this difference to the lower absorption below bandgap for AlN barrier layers at the energies of our experimental investigation

    Preparation and characterization of functionalized hybrid hydroxyapatite from phosphorite and its potential application to Pb2+ remediation

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    International audienceCalcium hydroxyapatite-aspartate (CaHAp-Asp) and calcium hydroxyapatite-glutamate (CaHAp-Glu) hybrid materials were prepared by the dissolution of Tunisian Phosphate Rocks in concentrated nitric acid and re-precipitation in basic solution in the presence of aspartic and glutamic acids. Chemical analyses, X-Ray Powder Diffraction, Infrared spectroscopy, 13C MAS-NMR spectroscopy, ThermoGravimetry and Scanning Electron Microscopy were used to characterize the materials and also the organic-inorganic interfaces. All techniques converge to the formation of hybrid organic-inorganic compounds composed of hydroxyapatite solids with organic anions incorporated at the surface. XRPD and SEM observations showed that not only was the crystallinity significantly affected by the presence of organic anions, but also the structural and morphological properties. The presence of organic anions has been confirmed by IR and 13C MS-NMR spectroscopies, and their amount has been evaluated by TG and chemical analyses. The three CaHAp, CaHAp-Asp and CaHAp-Glu materials were evaluated for Pb2+ sorption from aqueous solutions. Sorption isotherms have been analyzed using Langmuir and Freundlich models showing that the Pb2+ sorption capacity is increased for CaHAp-Asp and CaHAp-Glu. The comparison of the two models indicates a single active site corresponding to a homogeneous interface between Pb2+ aqueous adsorbate and the solid adsorbent surface

    Projet MOPS : Système dédié à l'utilisation des signaux GNSS pour l'océanographie et la surveillance de la surface de la mer

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    International audienceCe papier présente la réalisation d'un système avancé de réception de signaux GNSS qui enregistre simultanément le signal direct issu d'un satellite et le signal réfléchi par la surface maritime. La réception des signaux est réalisée à l'aide de deux antennes localisées à une dizaine de mètres au dessus de la surface maritime. Cette plateforme expérimentale est constituée de plusieurs éléments : un module électronique radiofréquence RF en bande L1 (1575.42 GHz), deux convertisseurs de fréquence intermédiaire FI (70 MHz), deux modules d'acquisition et de numérisation de signaux analogiques (8 GS/s sur 10 bits et 420 MS/s sur 12 bits). Le système ainsi réalisé doit permettre d'observer les fluctuations rapides et lentes de la surface de mer à petite et grande échelle avec de bonnes précisions. La constitution de cette plateforme s'inscrit dans le cadre du projet MOPS [1] porté par l'ENSTA-Bretagne, Télécom Bretagne et l'IFREMER. Ce projet est soutenu par le GIS Europôle Mer

    Recent advances and perspectives for intercalation layered compounds. Part 2: applications in the field of catalysis, environment and health

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    Intercalation compounds represent a unique class of materials that can be anisotropic (1D and 2D-based topology) or isotropic (3D) through their guest/host superlattice repetitive organisation. Intercalation refers to the reversible introduction of guest species with variable natures into a crystalline host lattice. Different host lattice structures have been used for the preparation of intercalation compounds, and many examples are produced by exploiting the flexibility and the ability of 2D-based hosts to accommodate different guest species, ranging from ions to complex molecules. This reaction is then carried out to allow systematic control and fine tuning of the final properties of the derived compounds, thus allowing them to be used for various applications. This review mainly focuses on the recent applications of intercalation layered compounds (ILCs) based on layered clays, zirconium phosphates, layered double hydroxides and graphene as heterogeneous catalysts, for environmental and health purposes, aiming at collecting and discussing how intercalation processes can be exploited for the selected applications

    Recent advances and perspectives on intercalation layered compounds part 1: design and applications in the field of energy

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    Herein, initially, we present a general overview of the global financial support for chemistry devoted to materials science, specifically intercalation layered compounds (ILCs). Subsequently, the strategies to synthesise these host structures and the corresponding guest–host hybrid assemblies are exemplified on the basis of some families of materials, including pillared clays (PILCs), porous clay heterostructures (PCHs), zirconium phosphate (ZrP), layered double hydroxides (LDHs), graphite intercalation compounds (GICs), graphene-based materials, and MXenes. Additionally, a non-exhaustive survey on their possible application in the field of energy through electrochemical storage, mostly as electrode materials but also as electrolyte additives, is presented, including lithium technologies based on lithium ion batteries (LIBs), and beyond LiBs with a focus on possible alternatives such XIBs (X = Na (NIB), K (KIB), Al (AIB), Zn (ZIB), and Cl (CIB)), reversible Mg batteries (RMBs), dual-ion batteries (DIBs), Zn-air and Zn-sulphur batteries and supercapacitors as well as their relevance in other fields related to (opto)electronics. This selective panorama should help readers better understand the reason why ILCs are expected to meet the challenge of tomorrow as electrode materials

    Experimental observation of strong light-matter coupling in ZnO microcavities: influence of large excitonic absorption

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    We present experimental observation of the strong light-matter coupling regime in ZnO bulk microcavities grown on silicon. Angle resolved reflectivity measurements, corroborated by transfer-matrix simulations, show that Rabi splittings in the order of 70 meV are achieved even for low finesse cavities. The impact of the large excitonic absorption, which enables a ZnO bulk-like behavior to be observed even in the strong coupling regime, is illustrated both experimentally and theoretically by considering cavities with increasing thickness

    Relaxation and emission of Bragg-mode and cavity-mode polaritons in a ZnO microcavity at room temperature

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    The strong coupling regime in a ZnO microcavity is investigated through room temperature photoluminescence and reflectivity experiments. The simultaneous strong coupling of excitons to the cavity mode and the first Bragg mode is demonstrated at room temperature. The polariton relaxation is followed as a function of the excitation density. A relaxation bottleneck is evidenced in the Bragg-mode polariton branch. It is partly broken under strong excitation density, so that the emission from this branch dominates the one from cavity-mode polaritons
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