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183 results on '"Eymery, Joël"'

1. High-resolution spatio-temporal strain imaging reveals loss mechanisms in a surface acoustic wave device

Author

Zhou, Tao, Reinhardt, Alexandre, Bousquet, Marie, Eymery, Joel, Leake, Steven, Holt, Martin V., Evans, Paul G., and Schülli, Tobias

Subjects
Physics - Applied Physics
Abstract

Surface acoustic wave devices are key components for processing radio frequency signals in wireless communication because these devices offer simultaneously high performance, compact size and low cost. The optimization of the device structure requires a quantitative understanding of energy conversion and loss mechanisms. Stroboscopic full-field diffraction x-ray microscopy studies of a prototypical one-port resonator device revealed the existence of unanticipated acoustic loss. A non-uniform acoustic excitation in the active area was responsible for the substantial end and side leakages observed at the design frequency. Quantitative analysis of the strain amplitude using a wave decomposition method allowed the determination of several key device parameters. This high-resolution spatiotemporal strain imaging technique is, more generally, suited for studying nanophononics, specifically when the feature size is smaller than optical wavelengths. The strain sensitivity allows precise measurement of acoustic waves with picometer-scale amplitude.

Published
2024

2. Imaging the Breathing of a Platinum Nanoparticle in Electrochemical Environment

Author

Atlan, Clément, Chatelier, Corentin, Dupraz, Maxime, Martens, Isaac, Viola, Arnaud, Li, Ni, Gao, Lu, Leake, Steven J., Schülli, Tobias U., Eymery, Joël, Maillard, Frédéric, and Richard, Marie-Ingrid

Subjects
Condensed Matter - Materials Science
Abstract

Surface strain is widely used in gas phase catalysis and electrocatalysis to control the binding energies of adsorbates on metal surfaces. However, $in$ $situ$ or $operando$ strain measurements are experimentally challenging, especially on nanomaterials. Here, we take advantage of the 4$^{th}$ generation Extremely Brilliant Source at the European Synchrotron Radiation Facility (ESRF-EBS, Grenoble, France) to quantify the distribution of strain inside a Pt nanoparticle, and to determine its morphology in an electrochemical environment. Our results show for the first time evidence of heterogeneous and potential-dependent strain distribution between highly-coordinated ({100} and {111} facets) and under-coordinated atoms (edges and corners) as well as evidence of strain propagation from the surface to the bulk of the nanoparticle. These results provide dynamic structural insights to better simulate and design efficient nanocatalysts for energy storage and conversion applications.

Published
2022
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6. Charge Collection Efficiency of Single GaN Core–Shell Wires Assessed by High-Precision Ion-Beam-Induced Charge Measurements

Author

Verheij, Dirkjan, primary, Vićentijević, Milan, additional, Jakšić, Milko, additional, Peres, Marco, additional, Alves, Luís Cerqueira, additional, Cardoso, Susana, additional, Alves, Eduardo, additional, Durand, Christophe, additional, Eymery, Joël, additional, Möller, Wolfhard, additional, and Lorenz, Katharina, additional

Published
2024
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7. UV-A Flexible LEDs Based on Core–Shell GaN/AlGaN Quantum Well Microwires

Author

Amador-Mendez, Nuno, Kochetkov, Fedor M., Hernandez, Roberto, Neplokh, Vladimir, Grenier, Vincent, Finot, Sylvain, Valera, Lucie, Duraz, Jules, Fominykh, Nikita, Parshina, Elizaveta K., Deriabin, Konstantin V., Islamova, Regina M., Herth, Etienne, Bouchoule, Sophie, Julien, François, Abraham, Malini, Das, Subrata, Jacopin, Gwénolé, Krasnikov, Dmitry V., Nasibulin, Albert, Eymery, Joël, Durand, Christophe, Mukhin, Ivan S., and Tchernycheva, Maria

Abstract

Nanostructured ultraviolet (UV) light sources represent a growing research field in view of their potential applications in wearable optoelectronics or medical treatment devices. In this work, we report the demonstration of the first flexible UV-A light emitting diode (LED) based on AlGaN/GaN core–shell microwires. The device is based on a composite microwire/poly(dimethylsiloxane) (PDMS) membrane with flexible transparent electrodes. The electrode transparency in the UV range is optimized: namely, we demonstrate that single-walled carbon nanotube electrodes provide a stable electrical contact to the membrane with high transparency (70% at 350 nm). The flexible UV-A membrane demonstrating electroluminescence around 345 nm is further applied to excite Zn–Ir–BipyPDMS luminophores: the UV-A LED is combined with the elastic luminophore-containing membrane to produce a visible amber emission from 520 to 650 nm. The obtained results pave the way for flexible inorganic light-emitting diodes to be employed in sensing, detection of fluorescent labels, or light therapy.

Published
2024
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11. Time-dependent relaxation of strained silicon-on-insulator lines using a partially coherent x-ray nanobeam

Author

Mastropietro, Francesca, Eymery, Joël, Carbone, Gerardina, Baudot, Sophie, Andrieu, François, and Favre-Nicolin, Vincent

Subjects
Condensed Matter - Materials Science
Abstract

We report on the quantitative determination of the strain map in a strained Silicon-On-Insulator (sSOI) line with a 200x70 nm^2 cross-section. In order to study a single line as a function of time, we used an X-ray nanobeam with relaxed coherence properties as a compromise between beam size, coherence and intensity. We demonstrate how it is possible to reconstruct the line deformation at the nanoscale, and follow its evolution as the line relaxes under the influence of the X-ray nanobeam., Comment: 5 pages, 4 figures

Published
2013
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12. Wafer-scale selective area growth of GaN hexagonal prismatic nanostructures on c-sapphire substrate

Author

Chen, Xiao Jun, Hwang, Jun-Seo, Perillat-Merceroz, Guillaume, Landis, Stefan, Martin, Brigitte, Dang, Daniel Le Si, Eymery, Joël, and Durand, Christophe

Subjects
Condensed Matter - Materials Science
Abstract

Selective area growth of GaN nanostructures has been performed on full 2" c-sapphire substrates using Si3N4 mask patterned by nanoimprint lithography (array of 400 nm diameter circular holes). A new process has been developed to improve the homogeneity of the nucleation selectivity of c-oriented hexagonal prismatic nanostructures at high temperature (1040\circ C). It consists of an initial GaN nucleation step at 950 \circ C followed by ammonia annealing before high temperature growth. Structural analyses show that GaN nanostructures are grown in epitaxy with c-sapphire with lateral overgrowths on the mask. Strain and dislocations are observed at the interface due to the large GaN/sapphire lattice mismatch in contrast with the high quality of the relaxed crystals in the lateral overgrowth area. A cathodoluminescence study as a function of the GaN nanostructure size confirms these observations: the lateral overgrowth of GaN nanostructures has a low defect density and exhibits a stronger near band edge (NBE) emission than the crystal in direct epitaxy with sapphire. The shift of the NBE positions versus nanostructure size can be mainly attributed to a combination of compressive strain and silicon doping coming from surface mask diffusion.

Published
2011
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13. Quantum Communication with Quantum Dot Spins

Author

Simon, Christoph, Niquet, Yann-Michel, Caillet, Xavier, Eymery, Joel, Poizat, Jean-Philippe, and Gerard, Jean-Michel

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Single electron spins in quantum dots are attractive for quantum communication because of their expected long coherence times. We propose a method to create entanglement between two remote spins based on the coincident detection of two photons emitted by the dots. Local nodes of several qubits can be realized using the dipole-dipole interaction between trions in neighboring dots and spectral addressing, allowing the realization of quantum repeater protocols. We have performed a detailed feasibility study of our proposal based on tight-binding calculations of quantum dot properties., Comment: 4 pages, 2 figures, new and improved version, explicit performance estimates

Published
2006
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14. Taking Bragg Coherent Diffraction Imaging to Higher Energies at Fourth Generation Synchrotrons: Nanoscale Characterization

Author

Richard, Marie-Ingrid, primary, Martens, Isaac, additional, Dupraz, Maxime, additional, Drnec, Jakub, additional, Honkimäki, Veijo, additional, Chatelier, Corentin, additional, Atlan, Clément, additional, Mirolo, Marta, additional, Levi, Mor, additional, Rabkin, Eugen, additional, Eymery, Joël, additional, Naidu, Akshata, additional, Schülli, Tobias U., additional, and Leake, Steven J., additional

Published
2023
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18. UV emission from MOVPE nanowire LEDs

Author

Durand, Christophe, primary, Grenier, Vincent, additional, Finot, Sylvain, additional, Valera, Lucie, additional, Bougerol, Catherine, additional, Eymery, Joël, additional, and Jacopin, Gwénolé, additional

Published
2023
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19. Imaging the strain evolution of a platinum nanoparticle under electrochemical control

Author

Atlan, Clément, Chatelier, Corentin, Martens, Isaac, Dupraz, Maxime, Viola, Arnaud, Li, Ni, Gao, Lu, Leake, Steven J., Schülli, Tobias U., Eymery, Joël, Maillard, Frédéric, Richard, Marie Ingrid, Atlan, Clément, Chatelier, Corentin, Martens, Isaac, Dupraz, Maxime, Viola, Arnaud, Li, Ni, Gao, Lu, Leake, Steven J., Schülli, Tobias U., Eymery, Joël, Maillard, Frédéric, and Richard, Marie Ingrid

Abstract

Surface strain is widely employed in gas phase catalysis and electrocatalysis to control the binding energies of adsorbates on active sites. However, in situ or operando strain measurements are experimentally challenging, especially on nanomaterials. Here we exploit coherent diffraction at the new fourth-generation Extremely Brilliant Source of the European Synchrotron Radiation Facility to map and quantify strain within individual Pt catalyst nanoparticles under electrochemical control. Three-dimensional nanoresolution strain microscopy, together with density functional theory and atomistic simulations, show evidence of heterogeneous and potential-dependent strain distribution between highly coordinated ({100} and {111} facets) and undercoordinated atoms (edges and corners), as well as evidence of strain propagation from the surface to the bulk of the nanoparticle. These dynamic structural relationships directly inform the design of strain-engineered nanocatalysts for energy storage and conversion applications.

Published
2023

21. Ion beam induced current analysis in GaN microwires

Author

Verheij Dirkjan, Peres Marco, Cardoso Susana, Alves Luís Cerqueira, Alves Eduardo, Durand Cristophe, Eymery Joël, Fernandes Jorge, and Lorenz Katharina

Subjects
Physics, QC1-999
Abstract

GaN is a wide bandgap semiconductor which is expected to withstand high radiation doses. Consequently, it is considered a promising material for new generation particle detectors in radiation related applications. We report on the fabrication and electrical characterization under proton irradiation of single microwire sensors based on a back-to-back Schottky contact configuration. The microwires are grown by metal-organic vapor phase epitaxy and processed into sensors by using optical lithography on dispersed wires. We investigate the impact of the contacts and the semiconductor bulk on the ion beam induced current (IBIC) by irradiating specific areas of the sensor and simultaneously measuring the change in conductivity. We observed that the contribution of the excess charge carriers generated in the depletion regions formed at the contact interfaces is of low influence when compared to the excess charge carriers generated in the microwire bulk.

Published
2020
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26. Large Scale Integration of Functional Radio‐Frequency Flexible MEMS under Large Mechanical Strain.

Author

Azrak, Edy, Michaud, Laurent, Richy, Jérôme, Reinhardt, Alexandre, Tardif, Samuel, Eymery, Joël, Bousquet, Marie, Fournel, Frank, and Montmeat, Pierre

Subjects
STRAINS & stresses (Mechanics), SILICON nanowires, ALUMINUM nitride, MEMS resonators, SOUND waves, ACOUSTIC resonators, RADIO frequency
Abstract

A versatile industrial recipe of transferring nitride microelectronic components such as micro‐electromechanical systems (MEMS) onto flexible and stretchable substrates is demonstrated. This method bypasses difficulties of temperature‐related processing, and is applicable to large‐scale and mass production. The technological process of fabrication is presented along with its underlying structural and radio‐frequency characterizations. In particular, the Raman strain shifts of aluminum nitride (AlN) thin films are determined for uniaxial and biaxial mechanical deformations. The transferring process onto polymer is also demonstrated by an adhesive bonding of AlN‐based MEMS onto a 200 mm silicon (Si) wafer. The devices microstructure is assessed using X‐ray before and after transferring, as well as their electrical radio‐frequency (RF) features when on Si and polymer substrates. Then, RF measurements are also performed on the transferred and flexible devices; some in their relaxed states, and others in an in situ manner under an increasing macroscopic strain. It is shown that bulk acoustic wave resonator MEMS are fully functional even under 12% uniaxial stretching of the substrate. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Spatially and Time-Resolved Carrier Dynamics in Core-Shell InGaN/GaN Multiple-Quantum Wells on GaN Wire

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Segura-Ruiz, Jaime, Salomon, Damien, Rogalev, Andrei, Eymery, Joël, Alén, Benito, Martínez-Criado, Gema, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, Segura-Ruiz, Jaime, Salomon, Damien, Rogalev, Andrei, Eymery, Joël, Alén, Benito, and Martínez-Criado, Gema

Abstract

Time-resolved cathodoluminescence is a key tool with high temporal and spatial resolution. However, optical spectroscopic information can be also extracted using synchrotron pulses in a hard X-ray nanoprobe, exploiting a phenomenon called X-ray excited optical luminescence. Here, with 20 ps time resolution and 80 nm lateral resolution, we applied this time-resolved X-ray microscopy technique to individual core-shell InGaN/GaN multiple quantum well heterostructures deposited on GaN wires. Our findings suggest that the m-plane related multiple quantum well states govern the carrier dynamics. Likewise, our observations support not only the influence of In incorporation in the recombination rates, but also carrier localization phenomena at the hexagon wire apex. In addition, our experiment calls for further investigations of the spatiotemporal domain on the underlying mechanisms of optoelectronic nanodevices. Its great potential becomes more valuable when time-resolved X-ray excited optical luminescence microscopy is used in operando with other methods, such as X-ray absorption spectroscopy.

Published
2021

33. Heat Dissipation in Flexible Nitride Nanowire Light-Emitting Diodes

Author

Guan, Nan, primary, Amador-Mendez, Nuño, additional, Kunti, Arup, additional, Babichev, Andrey, additional, Das, Subrata, additional, Kapoor, Akanksha, additional, Gogneau, Noëlle, additional, Eymery, Joël, additional, Julien, François Henri, additional, Durand, Christophe, additional, and Tchernycheva, Maria, additional

Published
2020
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36. Mapping Inversion Domain Boundaries along Single GaN Wires with Bragg Coherent X-ray Imaging

Author

Li, Ni, primary, Labat, Stéphane, additional, Leake, Steven J., additional, Dupraz, Maxime, additional, Carnis, Jérôme, additional, Cornelius, Thomas W., additional, Beutier, Guillaume, additional, Verdier, Marc, additional, Favre-Nicolin, Vincent, additional, Schülli, Tobias U., additional, Thomas, Olivier, additional, Eymery, Joël, additional, and Richard, Marie-Ingrid, additional

Published
2020
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39. Ion beam induced current analysis in GaN microwires.

Author

Almeida, B.G., Agostinho Moreira, J., Verheij, Dirkjan, Peres, Marco, Cardoso, Susana, Alves, Luís Cerqueira, Alves, Eduardo, Durand, Cristophe, Eymery, Joël, Fernandes, Jorge, and Lorenz, Katharina

Subjects
GALLIUM nitride, ION beams, SEMICONDUCTORS, ELECTRIC currents, RADIATION doses, PARTICLE detectors
Abstract

GaN is a wide bandgap semiconductor which is expected to withstand high radiation doses. Consequently, it is considered a promising material for new generation particle detectors in radiation related applications. We report on the fabrication and electrical characterization under proton irradiation of single microwire sensors based on a back-to-back Schottky contact configuration. The microwires are grown by metal-organic vapor phase epitaxy and processed into sensors by using optical lithography on dispersed wires. We investigate the impact of the contacts and the semiconductor bulk on the ion beam induced current (IBIC) by irradiating specific areas of the sensor and simultaneously measuring the change in conductivity. We observed that the contribution of the excess charge carriers generated in the depletion regions formed at the contact interfaces is of low influence when compared to the excess charge carriers generated in the microwire bulk. [ABSTRACT FROM AUTHOR]

Published
2020
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40. A study of the strain distribution by scanning X-ray diffraction on GaP/Si for III–V monolithic integration on silicon

Author

Zhou, Ang, primary, Ping Wang, Yan, additional, Cornet, Charles, additional, Léger, Yoan, additional, Pédesseau, Laurent, additional, Favre-Nicolin, Vincent, additional, Chahine, Gilbert André, additional, Schülli, Tobias Urs, additional, Eymery, Joël, additional, Bahri, Mounib, additional, Largeau, Ludovic, additional, Patriarche, Gilles, additional, Durand, Olivier, additional, and Létoublon, Antoine, additional

Published
2019
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41. Colour optimization of phosphor-converted flexible nitride nanowire white light emitting diodes

Author

Guan, Nan, primary, Amador-Mendez, Nuño, additional, Wang, Junkang, additional, Das, Subrata, additional, Kapoor, Akanksha, additional, Julien, François H, additional, Gogneau, Noëlle, additional, Foldyna, Martin, additional, Som, Sudipta, additional, Eymery, Joël, additional, Durand, Christophe, additional, and Tchernycheva, Maria, additional

Published
2019
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42. Crystallographic orientation of facets and planar defects in functional nanostructures elucidated by nano-focused coherent diffractive X-ray imaging

Author

Richard, Marie Ingrid, Fernández, Sara, Eymery, Joël, Hofmann, Jan Philipp, Gao, Lu, Carnis, Jérôme, Labat, Stéphane, Favre-Nicolin, Vincent, Hensen, Emiel J.M., Thomas, Olivier, Schülli, Tobias U., Leake, Steven J., Richard, Marie Ingrid, Fernández, Sara, Eymery, Joël, Hofmann, Jan Philipp, Gao, Lu, Carnis, Jérôme, Labat, Stéphane, Favre-Nicolin, Vincent, Hensen, Emiel J.M., Thomas, Olivier, Schülli, Tobias U., and Leake, Steven J.

Abstract

The physical and chemical properties of nanostructures depend on their surface facets. Here, we exploit a pole figure approach to determine the three-dimensional orientation matrix of a nanostructure from a single Bragg reflection measured with a coherent nano-focused X-ray beam. The signature of any truncated (faceted) crystal produces a crystal truncation rod, which corresponds to a streak of intensity in reciprocal space normal to the surface. When two or more non-parallel facets are present, both the crystal orientation and the crystal facets can be identified. This enables facets to be rapidly indexed and uncommon facets, and planar defects, that have been difficult to study before to be identified. We demonstrate the technique with (i) epitaxial core-shell InGaN/GaN multiple quantum-wells grown on GaN nanowires, where surface facets and planar defects are determined, and (ii) single randomly oriented highly faceted tetrahedrahexal Pt nanoparticles. The methodology is applicable to a broad range of nanocrystals and provides a unique insight into the connection between structure and properties of nanomaterials.

Published
2018

44. Green Electroluminescence from Radial m-Plane InGaN Quantum Wells Grown on GaN Wire Sidewalls by Metal–Organic Vapor Phase Epitaxy

Author

Kapoor, Akanksha, primary, Guan, Nan, additional, Vallo, Martin, additional, Messanvi, Agnes, additional, Mancini, Lorenzo, additional, Gautier, Eric, additional, Bougerol, Catherine, additional, Gayral, Bruno, additional, Julien, Francois H., additional, Vurpillot, François, additional, Rigutti, Lorenzo, additional, Tchernycheva, Maria, additional, Eymery, Joël, additional, and Durand, Christophe, additional

Published
2018
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48. Crystallographic orientation of facets and planar defects in functional nanostructures elucidated by nano-focused coherent diffractive X-ray imaging

Author

Richard, Marie-Ingrid, primary, Fernández, Sara, additional, Eymery, Joël, additional, Hofmann, Jan Philipp, additional, Gao, Lu, additional, Carnis, Jérôme, additional, Labat, Stéphane, additional, Favre-Nicolin, Vincent, additional, Hensen, Emiel J. M., additional, Thomas, Olivier, additional, Schülli, Tobias U., additional, and Leake, Steven J., additional

Published
2018
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50. X-ray scattering study of hydrogen implantation in silicon.

Author

Sousbie, Nicolas, Capello, Luciana, Eymery, Joël, Rieutord, François, and Lagahe, Chrystelle

Subjects
HYDROGEN, SILICON, X-ray scattering, CRYSTALS, PHYSICS
Abstract

The effect of hydrogen implantation in silicon single crystals is studied using high-resolution x-ray scattering. Large strains normal to the sample surface are evidenced after implantation. A simple and direct procedure to extract the strain profile from the scattering data is described. A comparison between different crystallographic orientation of the implanted silicon surface is then presented, namely, for <100>, <110>, and <111> orientations, showing a dependence that can be related to bond orientation. Effect of annealing on the stressed structure is finally described. [ABSTRACT FROM AUTHOR]

Published
2006
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