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1. Equilibrium structure and shape of Ag and Pt nanoparticles grown on silica surfaces: from experimental investigations to the determination of a metal-silica potential

Author

Hellal, F. Ait, Andreazza-Vignolle, C., Andreazza, P., and Puibasset, J.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A combination of experimental and numerical calculations on metallic silver and platinum nanoparticles deposited on silica substrates is presented, with a focus on the metal-substrate interactions. Experimentally, the nanoparticles are elaborated under ultra-high vacuum and characterized by Grazing-Incidence Small-Angle X-ray Scattering (GISAXS) and High Resolution Transmission Electronic Microscopy (HRTEM) to determine their structure and morphology, and in particular their aspect ratio (height/diameter) which quantifies the metal-substrate interaction. Numerically, the interactions between the metal and the silica species are modeled with the Lennard-Jones (12, 6) potential, with two parameters for each metal and silica species. The geometric parameters were found in the literature, while the energetic parameters were determined from our experimental measurements of the aspect ratio. The parameters are: {\sigma}_{Ag-O} = 0.278 nm, {\sigma}_{Ag-Si} = 0.329 nm, {\epsilon}_{Ag-O} = 75 meV, and {\epsilon}_{Ag-Si} = 13 meV for Ag-silica and {\sigma}_{Pt-O} = 0.273 nm, {\sigma}_{Pt-Si} = 0.324 nm, {\epsilon}_{Pt-O} = 110 meV, and {\epsilon}_{Pt-Si} = 18 meV for Pt-silica. The proposed Ag-silica potential reproduces quantitatively the unexpected experimental observation of the variation of the aspect ratio for Ag nanoparticles larger than 5 nm, which has been interpreted as a consequence of the silica roughness. The nanoparticle orientation, structure and disorder are also considered. This metal-silica potential for Ag and Pt should be helpful for further studies on pure metals as well as their alloys., Comment: 35p, 12 figures

Published
2024

2. Silver-Platinum nanoparticles and nanodroplets supported on silica surfaces: structure and chemical ordering

Author

Hellal, F. Ait, Puibasset, J., Andreazza-Vignolle, C., and Andreazza, P.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Statistical Mechanics
Abstract

Stable and metastable metallic nanoparticles exhibit unique properties compared to the bulk, with potentially important applications for catalysis. This is in particular the case for the AgPt alloy that can exhibit the ordered L1$_1$ structure (alternation of pure Ag and Pt (111) planes) in nanometer size particles. However, for such small systems, the interfaces play an important role. Therefore, the support used to elaborate the nanoparticles in ultrahigh vacuum experiments may influence their properties, even in the case of weakly interacting substrates like amorphous carbon or silica. This work focuses on the AgPt nanoparticles deposited on silica, and investigates the effect of the support disorder and roughness on the structure and chemical ordering, in particular at the interface with the substrate, by Monte Carlo calculations of the atomic density profiles with semi-empiric potentials.

Published
2023
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3. Improving Molecular Simulation Models of Adsorption in Porous Materials: Interdependence between Domains Amélioration des modèles d’adsorption dans les milieux poreux par simulation moléculaire : interdépendance entre les domaines

Author

Puibasset J.

Subjects
Chemical technology, TP1-1185, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

Fluid confinement is ubiquitous in nature and industry, and is the most widely used technique to characterize porous materials. The main characterization tool consists in measuring the so-called adsorption/desorption isotherms, i.e. the amount of gas adsorbed by the porous substrate as a function of the fluid chemical potential (or relative pressure). The models used to analyse the data are generally quite simple, leading to inaccurate characterization of the porous materials. In particular, ignoring the interdependence between the elemental pores or domains leads to inappropriate conclusions. Our approach proposes to cure this problem in the molecular simulation approaches. Le confinement de fluides est fréquent dans les systèmes naturels et industriels et se révèle très utile pour caractériser les matériaux poreux. L’outil essentiel de caractérisation consiste à mesurer les isothermes d’adsorption/désorption, c’est-à-dire la quantité de fluide adsorbée par le milieu poreux en fonction du potentiel chimique (ou de la pression relative). Les modèles utilisés pour analyser les données sont en général très simples, conduisant à des caractérisations imprécises des matériaux. En particulier, la non prise en compte de l’interdépendance entre les pores élémentaires (ou domaines) entraine des conclusions erronées. Notre approche propose de résoudre ce problème dans le cadre d’une approche par simulation moléculaire.

Published
2013
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4. Structure and Permeability of Porous Silicon Investigated by Self-Diffusion NMR Measurements of Ethanol and Heptane

Author

Puibasset J., Porion P., Grosman A., and Rolley E.

Subjects
Chemical technology, TP1-1185, Energy industries. Energy policy. Fuel trade, HD9502-9502.5
Abstract

The adsorption and phase transitions of confined fluids in nanoporous materials have been studied intensely because of both their fundamental interest and their crucial role in many technologies. Questions relating to the influence of the confinement of fluids, and the disorder or elastic deformation of porous solids on the liquid-gas phase transition are still under debate. Model systems are needed to understand the adsorption phenomenon. In this context, Porous Silicon (PoSi), which is a single crystal obtained by etching a (100) silicon wafer is an excellent candidate. Indeed, it consists of non-connected tubular pores running parallel to the [100] axis perpendicular to the wafer surface, with transverse sections with a polygonal shape of nanometric size whose areas are widely distributed. Once detached from the wafer, free PoSi membranes can be considered a nanoscale disordered honeycomb. Adsorption/desorption experiments have been performed to characterize the structure: they have shown that evaporation occurs collectively, an intriguing observation generally associated with a disordered pore structure with many interconnections through narrow necks. The characterization of fluid mobility inside the pores should give complementary information about the pore structure and topology. This paper focuses on the dynamics of a fluid confined inside the structure of porous silicon, and in particular the self-diffusion measurements (pulsed field gradient spin echo Nuclear Magnetic Resonance (NMR)). The results show a strong anisotropy of the self-diffusion tensor, as expected in this highly anisotropic structure. However, a non-zero self-diffusion in the directions perpendicular to the pore axis is observed. In order to interpret these puzzling results, molecular and Brownian dynamics calculations are underway.

Published
2016
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5. The simple dark matter search: Present and future

Author

Felizardo M., Girard T.A., Fernandes A.C., Morlat T., Puibasset J., Ramos A.R., Marques J.G., Kling A., Carvalho F.P., Prudencio M.I., Gouveia A., Marques R., Auguste M., Boyer D., Cavaillou A., Poupeney J., and Sudre C.

Subjects
Environmental sciences, GE1-350
Abstract

We review the recently completed Phase II measurements of the SIMPLE project, and briefly describe its in-progress Phase III.

Published
2014
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6. Equilibrium structure and shape of Ag and Pt nanoparticles grown on silica surfaces: From experimental investigations to the determination of a metal–silica potential.

Author

Ait Hellal, F., Andreazza-Vignolle, C., Andreazza, P., and Puibasset, J.

Subjects
PLATINUM nanoparticles, SILICA nanoparticles, X-ray scattering, VACUUM deposition, ULTRAHIGH vacuum, NANOPARTICLES, SMALL-angle X-ray scattering, SILVER nanoparticles
Abstract

A combination of experimental and numerical investigations on metallic silver and platinum nanoparticles deposited on silica substrates is presented, with a focus on metal–substrate interactions. Experimentally, the nanoparticles, obtained by ultra-high vacuum atom deposition, are characterized by grazing-incidence small-angle x-ray scattering and high resolution transmission electronic microscopy to determine their structure and morphology and, in particular, their aspect ratio (height/diameter), which quantifies the metal–substrate interaction, from the as-grown to equilibrium state. Numerically, the interactions between the metal and the silica species are modeled with the Lennard-Jones (12, 6) potential, with two parameters for each metal and silica species. The geometric parameters were found in the literature, while the energetic parameters were determined from our experimental measurements of the aspect ratio. The parameters are as follows: σAg–O = 0.278 nm, σAg–Si = 0.329 nm, ɛAg–O = 75 meV, and ɛAg–Si = 13 meV for Ag–silica and σPt–O = 0.273 nm, σPt–Si = 0.324 nm, ɛPt–O = 110 meV, and ɛPt–Si = 18 meV for Pt–silica. The proposed Ag–silica potential reproduces quantitatively the unexpected experimental observation of the variation of the aspect ratio for Ag nanoparticles larger than 5 nm, which has been interpreted as a consequence of the silica roughness. The nanoparticle orientation, structure, and disorder are also considered. This metal–silica potential for Ag and Pt should be helpful for further studies on pure metals as well as their alloys. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Elastic Compliance and Stiffness Matrix of the FCC Lennard-Jones Thin Films: Influence of Thickness and Temperature

Author

Puibasset, J.

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

The fcc Lennard-Jones crystal is used as a generic model of solid to study the elastic properties of thin films as a function of thickness and temperature. The Monte Carlo algorithm is used to calculate the average deformations along the axes in the isostress-isothermal ensemble that mimics a real uniaxial loading experiment. The four independent parameters (tetragonal symmetry The fcc Lennard-Jones crystal is used as a generic model of solid to study the elastic properties of thin films as a function of thickness and temperature. The Monte Carlo algorithm is used to calculate the average deformations along the axes in the isostress-isothermal ensemble that mimics a real uniaxial loading experiment. The four independent parameters (tetragonal symmetry without shear) have been calculated for film thicknesses ranging from 4 to 12 atomic layers, and for five reduced temperatures between 0 and 0.5 sigma/kB, where sigma is the energetic parameter of the Lennard Jones potential and kB is Boltzmann's constant. These parameters (Poisson's ratio and moduli) give the compliance matrix, which is inverted to get the stiffness coefficients. It is shown that the three Poisson's ratios exhibit a good linearity with the inverse of the film thickness, while this is not the case for the moduli and the compliance coefficients. Remarkably, the stiffness coefficients do exhibit a good linearity with the inverse of the film thickness, including the limiting value of infinite thickness (bulk solid) obtained by applying periodic boundary conditions in all directions. This linearity suggests to interpret the results in terms of a bulk+surface decomposition. However, the surface stiffness matrix deduced from the slopes has nonzero components along the out-of-plane direction, an unexpected observation in the framework of the surface stress theory., Comment: 38 pages, 11 figures

Published
2019

10. Adsorption-Induced Deformation of a Nanoporous Material: Influence of the Fluid-Adsorbent Interaction and Surface Freezing on the Pore-Load Modulus Measurement

Author

Puibasset, J.

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

Liquid adsorption in nanoporous materials induces their deformation due to strong capillary forces. The linear relationship between the liquid pressure and the solid strain (pore-load modulus) provides an experimental technique to determine the mechanical properties of nanosized solids. Puzzling experimental results have often been reported, leading to a severe reconsideration of the mechanical properties of the thin walls, the introduction of surface stresses, and the suggestion of a mutual influence of fluid adsorption and matrix deformation. This work presents a molecular simulation examination of the fundamentals of the pore-load measurement technique. The pore-load protocol is reproduced as in experiments by measuring the solid deformation in presence of the liquid ("numerical experiment"), and the result is compared to the expected mechanical response of the solid. Focusing on a single nanoplatelet mimicking silicon stiffness, we show that the pore-load protocol is valid as long as the liquid in the pores remains liquid. However, when an ordered layer can form at the solid surface, it significantly affects the pore-load measurement. It is shown that this may happen above the freezing point even for moderately strong fluid-solid interactions. This observation could help for the interpretation of experimental data, in particular in porous silicon, where the expected presence of atomically smooth surfaces could favor the formation of highly ordered fluid layers.

Published
2017
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11. The SIMPLE Phase II Dark Matter Search

Author

Felizardo, M., Girard, TA, Morlat, T., Fernandes, A. C., Ramos, A. R., Marques, J. G., Kling, A., Puibasset, J., Auguste, M., Boyer, D., Cavaillou, A., Poupeney, J., Sudre, C., Carvalho, F. P., Prudencio, M. I., and Marques, R.

Subjects
High Energy Physics - Phenomenology, Physics - Instrumentation and Detectors
Abstract

Phase II of SIMPLE (Superheated Instrument for Massive ParticLe Experiments) searched for astroparticle dark matter using superheated liquid C$_{2}$ClF$_{5}$ droplet detectors. Each droplet generally requires an energy deposition with linear energy transfer (LET) $\gtrsim$ 150 keV/$\mu$m for a liquid-to-gas phase transition, providing an intrinsic rejection against minimum ionizing particles of order 10$^{-10}$, and reducing the backgrounds to primarily $\alpha$ and neutron-induced recoil events. The droplet phase transition generates a millimetric-sized gas bubble which is recorded by acoustic means. We describe the SIMPLE detectors, their acoustic instrumentation, and the characterizations, signal analysis and data selection which yield a particle-induced, "true nucleation" event detection efficiency of better than 97% at a 95% C.L. The recoil-$\alpha$ event discrimination, determined using detectors first irradiated with neutrons and then doped with alpha emitters, provides a recoil identification of better than 99%; it differs from those of COUPP and PICASSO primarily as a result of their different liquids with lower critical LETs. The science measurements, comprising two shielded arrays of fifteen detectors each and a total exposure of 27.77 kgd, are detailed. Removal of the 1.94 kgd Stage 1 installation period data, which had previously been mistakenly included in the data, reduces the science exposure from 20.18 to 18.24 kgd and provides new contour minima of $\sigma_{p}$ = 4.3 $\times$ 10$^{-3}$ pb at 35 GeV/c$^{2}$ in the spin-dependent sector of WIMP-proton interactions and $\sigma_{N}$ = 3.6 $\times$ 10$^{-6}$ pb at 35 GeV/c$^{2}$ in the spin-independent sector. These results are examined with respect to the fluorine spin and halo parameters used in the previous data analysis., Comment: 20 pages, 19 figures; accepted Physical Review D

Published
2014
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12. Fabrication and Response of High Concentration SIMPLE Superheated Droplet Detectors with Different Liquids

Author

Felizardo, M., Morlat, T., Marques, J. G., Ramos, A. R., Girard, TA, Fernandes, A. C., Kling, A., Lazaro, I., Martins, R. C., and Puibasset, J.

Subjects
Physics - Instrumentation and Detectors
Abstract

The combined measurement of dark matter interactions with different superheated liquids has recently been suggested as a cross-correlation technique in identifying WIMP candidates. We describe the fabrication of high concentration superheated droplet detectors based on the light nuclei liquids C3F8, C4F8, C4F10 and CCl2F2, and investigation of their irradiation response with respect to C2ClF5. The results are discussed in terms of the basic physics of superheated liquid response to particle interactions, as well as the necessary detector qualifications for application in dark matter search investigations. The possibility of heavier nuclei SDDs is explored using the light nuclei results as a basis, with CF3I provided as an example., Comment: 39 pages, 26 figures; accepted Astroparticle Physics

Published
2013
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13. Final Analysis and Results of the Phase II SIMPLE Dark Matter Search

Author

Felizardo, M., Girard, T. A., Morlat, T., Fernandes, A. C., Ramos, A. R., Marques, J. G., Auguste, M., Boyer, D., Cavaillou, A., Poupeney, J., Sudre, C., Puibasset, J., Miley, H. S., Payne, R. F., Carvalho, F. P., Prudêncio, M. I., and Marques, R.

Subjects
Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

We report the final results of the Phase II SIMPLE measurements, comprising two run stages of 15 superheated droplet detectors each, the second stage including an improved neutron shielding. The analyses includes a refined signal analysis, and revised nucleation efficiency based on reanalysis of previously-reported monochromatic neutron irradiations. The combined results yield a contour minimum of \sigma_{p} = 4.2 x 10^-3 pb at 35 GeV/c^2 on the spin-dependent sector of WIMP-proton interactions, the most restrictive to date from a direct search experiment and overlapping for the first time results previously obtained only indirectly. In the spin-independent sector, a minimum of 3.6 x 10^-6 pb at 35 GeV/c^2 is achieved, with the exclusion contour challenging the recent CoGeNT region of current interest., Comment: revised, PRL-accepted version with slightly weakened limit contours

Published
2011
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14. First Results of the Phase II SIMPLE Dark Matter Search

Author

Felizardo, M., Morlat, T., Fernandes, A. C., Girard, TA, Marques, J. G., Ramos, A. R., Auguste, M., Boyer, D., Cavaillou, A., Sudre, C., Poupeney, J., Payne, R. F., Miley, H. S., and Puibasset, J.

Subjects
Astrophysics - Cosmology and Extragalactic Astrophysics, High Energy Physics - Experiment
Abstract

We report results of a 14.1 kgd measurement with 15 superheated droplet detectors of total active mass 0.208 kg, comprising the first stage of a 30 kgd Phase II experiment. In combination with the results of the neutron-spin sensitive XENON10 experiment, these results yield a limit of |a_p| < 0.32 for M_W = 50 GeV/c2 on the spin-dependent sector of weakly interacting massive particle-nucleus interactions with a 50% reduction in the previously allowed region of the phase space formerly defined by XENON, KIMS and PICASSO. In the spin-independent sector, a limit of 2.3x10-5 pb at M_W = 45 GeV/c2 is obtained., Comment: 4 pages, 4 figures; PRL-accepted version with corrected SI contour (Fig. 4)

Published
2010
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15. Effect of the reservoir size on gas adsorption in inhomogeneous porous media

Author

Kierlik, Edouard, Puibasset, J., and Tarjus, Gilles

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

We study the influence of the relative size of the reservoir on the adsorption isotherms of a fluid in disordered or inhomogeneous mesoporous solids. We consider both an atomistic model of a fluid in a simple, yet structured pore, whose adsorption isotherms are computed by molecular simulation, and a coarse-grained model for adsorption in a disordered mesoporous material, studied by a density functional approach in a local mean-field approximation. In both cases, the fluid inside the porous solid exchanges matter with a reservoir of gas that is at the same temperature and chemical potential and whose relative size can be varied, and the control parameter is the total number of molecules present in the porous sample and in the reservoir. Varying the relative sizes of the reservoir and the sample may change the shape of the hysteretic isotherms, leading to a "reentrant" behavior compared to the grand-canonical isotherm when the latter displays a jump in density. We relate these phenomena to the organization of the metastable states that are accessible for the adsorbed fluid at a given chemical potential or density., Comment: 16 pages

Published
2008
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16. SIMPLE Dark Matter Search Results

Author

Girard, TA, Giuliani, F., Morlat, T., da Costa, M. Felizardo, Collar, J. I., Limagne, D., Waysand, G., Puibasset, J., Miley, H. S., Auguste, M., Boyer, D., Cavaillou, A., Marques, J. G., Oliveira, C., Felizardo, M., Fernandes, A. C., Ramos, A. R., and Martins, R. C.

Subjects
High Energy Physics - Experiment
Abstract

We report an improved SIMPLE experiment comprising four superheated droplet detectors with a total exposure of 0.42 kgd. The result yields ~ factor 10 improvement in the previously-reported results, and -- despite the low exposure -- is seen to provide restrictions on the allowed phase space of spin-dependent coupling strengths almost equivalent to those from the significantly larger exposure NAIADCDMS/ZEPLIN searches., Comment: 8 pages, 2 figures, submitted to Phys. Lett. B

Published
2005
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17. WIMP searches with superheated droplet detectors: Status and Prospects

Author

Collar, J. I., Girard, T. A., Limagne, D., Miley, H. S., Morlat, T., Puibasset, J., and Waysand, G.

Subjects
Astrophysics, Condensed Matter - Soft Condensed Matter, High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

SIMPLE (Superheated Instrument for Massive ParticLE searches) employs superheated droplet detectors (SDDs) to search for Weakly Interacting Massive Particle (WIMP) dark matter. As a result of the intrinsic SDD insensitivity to minimum ionizing particles and high fluorine content of target liquids, competitive WIMP limits were already obtained at the early prototype stage. We comment here on the expected immediate increase in sensitivity of the program and on future plans to exploit this promising technnique., Comment: 6 pages LaTeX, incl. 2 figures. Presented at the 3rd Intl. Workshop for the Identification of Dark Matter (IDM2000), York, Sept. 2000

Published
2001
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18. Prospects for SIMPLE 2000: A large-mass, low-background Superheated Droplet Detector for WIMP searches

Author

Collar, J. I., Puibasset, J., Girard, T. A., Limagne, D., Miley, H. S., and Waysand, G.

Subjects
Astrophysics, Condensed Matter - Soft Condensed Matter, High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

SIMPLE 2000 (Superheated Instrument for Massive ParticLE searches) will consist of an array of eight to sixteen large active mass ($\sim15$ g) Superheated Droplet Detectors(SDDs) to be installed in the new underground laboratory of Rustrel-Pays d'Apt. Several factors make of SDDs an attractive approach for the detection of Weakly Interacting Massive Particles (WIMPs), namely their intrinsic insensitivity to minimum ionizing particles, high fluorine content, low cost and operation near ambient pressure and temperature. We comment here on the fabrication, calibration and already-competitive first limits from SIMPLE prototype SDDs, as well as on the expected immediate increase in sensitivity of the program, which aims at an exposure of $>$25 kg-day during the year 2000. The ability of modest-mass fluorine-rich detectors to explore regions of neutralino parameter space beyond the reach of the most ambitious cryogenic projects is pointed out., Comment: 19 pages, 10 figures included. New Journal of Physics, in press

Published
2000
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19. First Dark Matter Limits from a Large-Mass, Low-Background Superheated Droplet Detector

Author

Collar, J. I., Puibasset, J., Girard, T. A., Limagne, D., Miley, H. S., and Waysand, G.

Subjects
Astrophysics, Condensed Matter, High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

We report on the fabrication aspects and calibration of the first large active mass ($\sim15$ g) modules of SIMPLE, a search for particle dark matter using Superheated Droplet Detectors (SDDs). While still limited by the statistical uncertainty of the small data sample on hand, the first weeks of operation in the new underground laboratory of Rustrel-Pays d'Apt already provide a sensitivity to axially-coupled Weakly Interacting Massive Particles (WIMPs) competitive with leading experiments, confirming SDDs as a convenient, low-cost alternative for WIMP detection., Comment: Final version, Phys. Rev. Lett. (in press)

Published
2000
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20. The Status of SIMPLE in 2002

Author

Collar, J. I., Giuliani, F., Girard, T. A., Limagne, D., Marques, J. G., Miley, H. S., Morlat, T., Oliveira, C., Puibasset, J., Waysand, G., Ramos, R., Klapdor-Kleingrothaus, H. V., editor, and Viollier, R. D., editor

Published
2002
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32. Molecular simulation study of the heat capacity of metastable water between 100 and 300 K.

Author

Puibasset, J., Judeinstein, P., and Zanotti, J.-M.

Subjects
*HEAT capacity, *NANOPOROUS materials, *WATER
Abstract

Molecular simulations have been used to study the heat capacity of metastable liquid water at low temperature adsorbed on a smooth surface. These calculations aim at modelling water properties measured by experiments performed on water films adsorbed on Vycor nanoporous silica at low temperature. In particular, the study focuses on the non-monotonous variation of the heat capacity between 100 and 300 K. [ABSTRACT FROM AUTHOR]

Published
2019
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36. The SIMPLE Phase II dark matter search

Author

Felizardo, M., primary, Girard, T. A., additional, Morlat, T., additional, Fernandes, A. C., additional, Ramos, A. R., additional, Marques, J. G., additional, Kling, A., additional, Puibasset, J., additional, Auguste, M., additional, Boyer, D., additional, Cavaillou, A., additional, Poupeney, J., additional, Sudre, C., additional, Carvalho, F. P., additional, Prudêncio, M. I., additional, and Marques, R., additional

Published
2014
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38. Final Analysis and Results of the Phase II SIMPLE Dark Matter Search

Author

Felizardo, M., primary, Girard, T. A., additional, Morlat, T., additional, Fernandes, A. C., additional, Ramos, A. R., additional, Marques, J. G., additional, Kling, A., additional, Puibasset, J., additional, Auguste, M., additional, Boyer, D., additional, Cavaillou, A., additional, Poupeney, J., additional, Sudre, C., additional, Miley, H. S., additional, Payne, R. F., additional, Carvalho, F. P., additional, Prudêncio, M. I., additional, Gouveia, A., additional, and Marques, R., additional

Published
2012
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39. Freezing and Melting of Silver Nanoparticles on Silica Substrate Using a Simple Interatomic Potential for Ag–SiO2Interaction on the Basis of ab InitioCalculations and Experimental Data

Author

Ngandjong, A. C., Mottet, C., and Puibasset, J.

Abstract

We have devised a Ag–SiO2potential for Monte Carlo and molecular dynamics studies of systems comprising silver nanoparticles in contact with silica surfaces. The potential is determined based on density functional theory (DFT) calculations on β-cristobalite, a silica crystal, as well as theoretical and experimental data on α-quartz and amorphous silica found in literature. The interactions between Ag and silica species are fitted with the simple Lennard-Jones (12, 6) potential with parameters σAg–O= 0.278 nm, σAg–Si= 0.329 nm, εAg–O= 0.012 eV, and εAg–Si= 0.002 eV. The nature of the substrate is taken into account at a phenomenological level as an extra multiplicative factor η for the total interaction between silver and silica: for α-quartz ηquartz= 1, for hydroxylated β-cristobalite ηcrist= 5.0, and for amorphous silica ηamorph= 2.5. This potential is thought to be useful to investigate the effect of the silica support on the structure and morphology of deposited silver nanoparticles. As an example, we study the melting and freezing of supported nanoparticles. This potential could also possibly be extended to other metals or support.

Published
2017
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40. First Results of the Phase II SIMPLE Dark Matter Search

Author

Felizardo, M., primary, Morlat, T., additional, Fernandes, A. C., additional, Girard, T. A., additional, Marques, J. G., additional, Ramos, A. R., additional, Auguste, M., additional, Boyer, D., additional, Cavaillou, A., additional, Sudre, C., additional, Poupeney, J., additional, Payne, R. F., additional, Miley, H. S., additional, and Puibasset, J., additional

Published
2010
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43. The simple SDD

Author

Fernandes, A. C., primary, Morlat, T., additional, Felizardo, M., additional, Collar, J. I., additional, Puibasset, J., additional, Waysand, G., additional, Miley, H. S., additional, Ramos, A. R., additional, Girard, T. A., additional, Giuliani, F., additional, Limagne, D., additional, Marques, J. G., additional, Martins, R. C., additional, and Oliveira, C., additional

Published
2006
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44. SIMPLE dark matter search results

Author

Girard, T.A., primary, Giuliani, F., additional, Morlat, T., additional, Felizardo da Costa, M., additional, Collar, J.I., additional, Limagne, C., additional, Waysand, G., additional, Puibasset, J., additional, Miley, H.S., additional, Auguste, M., additional, Boyer, D., additional, Cavaillou, A., additional, Marques, J.G., additional, Oliveira, C., additional, Fernandes, A.C., additional, Ramos, A.R., additional, and Martins, R.C., additional

Published
2005
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45. RECENT RESULTS FROM THE SIMPLE DARK MATTER SEARCH

Author

GIRARD, TA, primary, GIULIANI, F., additional, COLLAR, J.I., additional, MORLAT, T., additional, LIMAGNE, D., additional, WAYSAND, G., additional, AUGUSTE, M., additional, BOYER, D., additional, CAVAILLOU, A., additional, MILEY, H.S., additional, DA COSTA, M., additional, MARTINS, R.C., additional, MARQUES, J.G., additional, RAMOS, A.R., additional, FERNANDES, A.C., additional, PUIBASSET, J., additional, and OLIVEIRA, C., additional

Published
2005
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