% % This file was created by the TYPO3 extension % bib % --- Timezone: CET % Creation date: 2021-01-27 % Creation time: 09-21-42 % --- Number of references % 29 % @Article { 201-4447, title = {An experimental and numerical study of sub-monolayer sputter deposition of polystyrene fragments on silver for the Storing Matter technique}, journal = {Analytical Chemistry}, year = {2014}, volume = {86}, pages = {11217-11225}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1021/ac502774m}, author = {Turgut, C. and Sinha, G. and Mether, L. and Lahtinen, J. and Nordlund, K. and Belmahi, M. and Philipp, P.} } @Article { 201-4445, title = {Characterization of energetic and thermalized sputtered atoms in pulsed plasma using time-resolved tunable diode-laser induced fluorescence.}, journal = {Applied Physics Letters}, year = {2014}, volume = {105}, pages = {181120-181124}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1063/1.4901440}, author = {Desecures, M. and de Poucques, L. and Easwarakhanthan, T. and Bougdira, J.} } @Article { 201-4430, title = {Chemical bath composition effect on the properties of electrodeposited CuInSe2 thin films}, journal = {Journal of Alloys and Compounds}, year = {2014}, volume = {587}, pages = {303-307}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.jallcom.2013.10.100}, author = {Meglali, O. and Attaf, N. and Bouraiou, A. and Bougdira, J. and Aida, M.S.} } @Article { 201-4354, title = {Comparison of aluminium nanostructures created by discharges in various dielectric liquids}, journal = {Plasma Chemistry and Plasma Processing}, year = {2014}, volume = {34}, pages = {1101-1114}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1007/s11090-014-9564-y}, author = {Hamdan, A. and Noel, C. and Ghanbaja, J. and Belmonte, T.} } @Article { 201-4341, title = {Continuous Carbon Deposition on a Silicon (100) surface, a MD simulation study}, journal = {Nuclear Instruments and Methods in Physics Research B: Beam Interactions with Materials and Atoms}, year = {2014}, volume = {326}, pages = {341-344}, abstract = {The deposition of multiple carbon atoms on a crystalline silicon (Si) surface is modelled at 5 eV energy by using molecular dynamics simulations combined with a third generation force field that includes bond breaking and formation. Force field parameters are taken from a previous work. These simulations allow for atomic scale insights into the deposition mechanisms and an easier comparison with experimental observations. The results, including distributions of implantation depth, carbon concentrations, sticking coefficients, radial distribution function, and angular distributions are compared for different incidence angles. Due to the deposition of carbon atoms inside the silicon structure, silicon carbide starts to form. The crystalline structure has been investigated for different conditions to get a better understanding of the damaging and growth mechanisms. It is found that a lot of deformation is accumulated in the area of deposition near to the surface but underneath the surface the silicon has still a more crystalline structure. The variation of the silicon (carbide) structu re slightly depends on the angle of incidence. For the conditions used for these simulations, the sticking probability is always high and varies between 95\% and 100\%, which can be attributed to the high affinity of carbon for silicon.}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.nimb.2013.10.069}, author = {Jana, A. and Briquet, L. and WIRTZ, T. and Philipp, P. and Henrion, G.} } @Article { 201-4355, title = {Controlled growth of copper oxide nanostructures by atmospheric pressure micro-afterglow}, journal = {Journal of Crystal Growth}, year = {2014}, volume = {407}, pages = {17-24}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.jcrysgro.2014.08.029}, author = {Altaweel, A. and Filipic, G. and Gries, T. and Belmonte, T.} } @Article { 201-4352, title = {Degradation Behaviour of HR-120 Alloy Exposed to CH4-CO-H2-H2O Mixed-Gas Environments at 950 {\^A}\(^{\circ}\)C}, journal = {Oxidation of Metals}, year = {2014}, volume = {82}, pages = {163-179}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1007/s11085-014-9484-5}, author = {K. Tillous, E. and Dulcy, J. and Belmonte, T.} } @Article { 201-4431, title = {Deposition of tin(II) sulfide thin films by ultrasonic spray pyrolysis: Evidence of sulfur exo-diffusion}, journal = {Materials Science in Semiconductor Processing}, year = {2014}, volume = {17}, pages = {38-42}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.mssp.2013.08.004}, author = {Messaoudi, M. and S. Aida, M. and Attaf, N. and Bezzi, T. and Bougdira, J. and Medjahdi, G.} } @Article { 201-4342, title = {Determining electron temperature and electron density in moderate pressure H2/CH4 microwave plasma}, journal = {Journal of Physics D: Applied Physics}, year = {2014}, volume = {47}, pages = {205201}, abstract = {The electron temperature and electron density are measured in a microwave (MW) plasma-assisted chemical vapour diamond deposition reactor for different experimental conditions by varying the substrate temperature, methane content and MW power density. Optical emission spectroscopy (OES) and MW interferometry are used to probe the discharge generated in a stainless steel resonant cavity excited at a frequency of 2.45 GHz. Changing the substrate temperature from 630 to 900 ?C does not show any significant influence on the electron temperature or on the electron density. Increasing the methane content from 0 to 10\% does not lead to any modification of the electron temperature or density. However between 10\% and 20\% CH, a decrease of the electron density is observed which may be attributed to soot particle formation. The electron density increases in the range of (1.2-10) x 1011 cm-3 from moderate power density conditions (50 hPa/1000 W) to high power density conditions (250 hPa/3500 W). OES measurements show that the electron temperature exhibits a flat axial profile in the plasma bulk and ranges from 14 000K at (25 hPa/600 W) to 10 500K at (400 hPa/3000 W).}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1088/0022-3727/47/20/205201}, author = {Derkaoui, N. and Rond, C. and Gries, T. and Henrion, G. and Gicquel, A.} } @Article { 201-4429, title = {Dynamics of dust particles in a collisional radio-frequency plasma sheath}, journal = {Physica Scripta}, year = {2014}, volume = {2014}, number = {T161}, pages = {014052}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1088/0031-8949/2014/T161/014052}, author = {El Kaouini, Morad and Chatei, Hassan and Bougdira, Jamal} } @Article { 201-4351, title = {Effect of microwave remote plasma and radiofrequency plasma on the photoluminescence properties of (0001) epitaxial ZnO films}, journal = {Materials Chemistry and Physics}, year = {2014}, volume = {147}, pages = {623-628}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.matchemphys.2014.05.040}, author = {Margueron, S. and Ropers, S. and Genty, F. and Bartasyte, A. and Belmonte, T.} } @Article { 201-4446, title = {Fragmentation of polystyrene during sputter deposition in the storing matter instrument}, journal = {Surface and Interface Analysis}, year = {2014}, volume = {46}, pages = {357-359}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1002/sia.5649}, author = {Turgut, C. and WIRTZ, T. and Belmahi, M. and Philipp, P.} } @Article { 201-4357, title = {Generation of Silicon Nanostructures by Atmospheric Microplasma Jet: The Role of Hydrogen Admixture}, journal = {Plasma Processes and Polymers}, year = {2014}, volume = {in press}, abstract = {Silicon nanostructures are synthesized with a DC atmospheric pressure microplasma jet using an Ar/SiH4/H2 gas mixture. The plasma is characterized by OES and imaged using an EMCCD camera. The effect of hydrogen admixture to the formed structures is studied by transmission electron microscopy. Under specific conditions, crystalline silicon nanoparticles grow in an amorphous matrix investigated by electron energy loss spectroscopy. As-grown silicon nanoparticles are collected in ethanol for dynamic light scattering and photoluminescence measurements. The size distribution peaks at 4{\^a}??nm. The silicon nanocrystals exhibit roomtemperature photoluminescence that peaks at \verb=~=415 and \verb=~=465 nm}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1002/ppap.201400047}, author = {Barwe, B. and Stein, A. and E. Cibulka, O. and Ghanbaja, J. and Belmonte, T. and Benedikt, J.} } @Article { 201-4348, title = {Growth of ruthenium dioxide nanostructures by micro-afterglow oxidation at atmospheric pressure}, journal = {Surface and Coatings Technology}, year = {2014}, volume = {255}, pages = {3-7}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.surfcoat.2013.10.040}, author = {Kuete Saa, D. and Cardoso, R.P. and Kosior, F. and Altaweel, A. and Gries, T. and Laminsi, S. and Belmonte, T.} } @Article { 201-4176, title = {Influence of electrolyte ageing on the Plasma Electrolytic Oxidation of aluminium}, journal = {Surface and Coatings Technology}, year = {2014}, volume = {In Press - available on line}, abstract = {The chemical stability of the electrolyte in Plasma Electrolytic Oxidation (PEO) has been the subject of much systematic investigation. The present study reports on experimental results on the ageing of a usual PEO electrolyte and its effect on the oxidation of the Al2214 aluminium alloy. A solution of potassium hydroxide ([KOH] = 1 g/L) and sodium silicate ([Na2SiO3] = 1.65 g/L) diluted in deionized water was either aged by running a process during 8 h at most or not. Comparison between materials treated in either solution was made next. Cross-checked experimental results from analytical chemistry, plasma diagnostics and materials science clearly evidence the effect of ageing of the electrolyte on the PEO process behaviour. The transition from arc to ''soft'' regime occurs earlier (from 18 min to 13 min processing time) as the electrolyte gets older. The concomitant decrease in the electrolyte electrical conductivity (from 7.5 mS.cm-1 to 6.8 mS.cm-1) is correlated with changes in the ionic species content in the electrolyte. Fast video-imaging (125 kfr./s) reveals that the micro-discharge characteristics are also sensitive since they become less numerous per area and unit time (from 220.103 cm-2s-1 to 120.103 cm-2s-1), exhibit shorter lifetime and have smaller sizes as the electrolyte ages. SEM observations of the as-grown coatings combined with roughness measures indicate a decrease in coating thickness ( \verb=~= 20 \%) and roughness ( \verb=~= 30 \%) while species from the electrolyte accumulate in the outer porous layer simultaneously with a gradual enrichment in a-Al2O3 phase in the inner compact layer (from 36 \% to 43 \%). Finally, within the PEO conditions that were used, it is shown that the ageing phenomenon of the PEO electrolyte starts to influence the process after 2 hours aged.}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.surfcoat.2014.11.001}, author = {Martin, J. and Leone, P. and Nomin{\'e}, A. and Veys-Renaux, D. and Henrion, G. and Belmonte, T.} } @Article { 201-4179, title = {Initial stages of AZ91 Mg alloy micro-arc anodizing{\^A} : Growth mechanisms and effect on the corrosion resistance}, journal = {Electrochimica Acta}, year = {2014}, volume = {124}, pages = {30-45}, abstract = {In the framework of the new ecological regulations, micro-arc oxidation (MAO) appears as an alternativeto usual processes in the field of corrosion protection of Mg alloys. In this work, the initial stagesof anodic layer growth in KOH-based electrolytes are studied up to and beyond the initiation of themicro-arc regime.The properties of the first anodized film preceding the occurrence of the dielectric breakdown (corre-sponding to the start of the micro-arc regime) are mainly determined by the incorporation of additives(fluorides or silicates) in the film, as shown by in situ electrochemical measurements. Scanning electronmicroscopy (SEM), X-ray photoelectron spectroscopy (XPS) and micro-Raman spectroscopy reveal boththe change of morphology and chemical state of silicate and fluoride in the anodized layer before andafter the micro-arc regime. In terms of electrochemical behaviour, investigated by stationary methodsand electrochemical impedance spectroscopy (EIS) in reference corrosive water, the anodic film grownin the silicate medium provides the best corrosion resistance thanks to a thick layer containing Mg2SiO4,whose degradation products seal the porosities of the coating.}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.electacta.2013.08.023}, author = {Veys-Renaux, D. and ROCCA, E. and Martin, J. and Henrion, G.} } @Article { 201-3917, title = {Interaction of discharges with electrode surfaces in dielectric liquids: application to nanoparticles synthesis}, journal = {Journal of Physics D: Applied Physics}, year = {2014}, volume = {47}, pages = {224016 (18 pp)}, abstract = {Discharge-surface interaction in liquids includes many phenomena which are reviewed in this work. This is used to examine results in the area of nanoparticle synthesis and to propose a general sketch of formation mechanisms.}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1088/0022-3727/47/22/224016}, author = {Belmonte, T. and Hamdan, A. and Kosior, F. and Noel, C. and Henrion, G.} } @Article { 201-4413, title = {Local modification of the microstructure and resistivity of multifunctional Au-YSZ nanocomposite thin films by laser interference patterning}, journal = {ACS Applied Materials and Interfaces}, year = {2014}, volume = {6}, pages = {13707-13715}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1021/am503160w}, author = {Gries, T. and Catrin, R. and Migot, S. and SOLDERA, F. and Endrino, J.L. and Landa-C{\'a}novas, A.R. and Cleymand, F. and Mangin, D. and M{\"u}cklich, F. and Horwat, D.} } @Article { 201-4347, title = {Microdischarge Ignition in liquid heptane}, journal = {Images in Plasma Science}, year = {2014}, volume = {99}, pages = {1}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1109/TPS.2014.2308402}, author = {Hamdan, A. and Marinov, I. and Rousseau, A. and Belmonte, T.} } @Article { 201-4381, title = {Microstructure modifications and associated hardness and corrosion improvements in the AISI 420martensitic stainless steel treated by high current pulsed electron beam (HCPEB)}, journal = {Surface and Coatings Technology}, year = {2014}, volume = {259}, pages = {737-745}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.surfcoat.2014.09.065}, author = {Samih, Y. and Marcos, G. and Stein, N. and Allain, N. and Fleury, E. and Dong, C. and Grosdidier, T.} } @Article { 201-4349, title = {Microwave capillary plasmas in helium at atmospheric pressure}, journal = {Journal of Physics D: Applied Physics}, year = {2014}, volume = {47}, pages = {265201}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1088/0022-3727/47/26/265201}, author = {Santos, M. and Noel, C. and Belmonte, T. and L. Alves, L.} } @Article { 201-4443, title = {Microwave plasma process for SiCN:H thin films synthesis with composition varying from SiC:H to SiN:H in H2/N2/Ar/hexamethyldisilazane gas mixture.}, journal = {Plasma Processes and Polymers}, year = {2014}, volume = {11}, pages = {551-558}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1002/ppap.201300166}, author = {Belmahi, M. and Bulou, S. and Thouvenin, A. and de Poucques, L. and Hugon, R. and Le Brizoual, L. and Miska, P. and Gen{\`e}ve, D. and Vasseur, J.-L. and Bougdira, J.} } @Article { 201-3916, title = {Non-destructive methods to control the properties of MAO coatings on the surface of 2024 aluminium alloy}, journal = {Surface and Coatings Technology}, year = {2014}, volume = {238}, pages = {27-44}, abstract = {The kinetic aspects of the coating formation on the 2024 aluminium alloy at different time intervals of the microarc oxidation process(MAO) in an alkaline-silicate electrolyte under the AC current are investigated.Moreover themain reasons of modifications in theMAO coating properties (corrosion resistance,microhardness) and phase composition during the process are shown. Finally, non-destructive controlmethods ofMAO coating properties are worked out.}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.surfcoat.2013.10.032}, author = {Shchedrina, I. and Rakoch, A.G. and Henrion, G. and Martin, J.} } @Article { 201-4350, title = {Photocatalytic Anatase Titanium Dioxide Thin Films Deposition from an Atmospheric Pressure Blown Arc Discharge}, journal = {Applied Surface Science}, year = {2014}, volume = {311}, pages = {721-728}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.apsusc.2014.05.145}, author = {D. Boscher, N. and Olivier, S. and Maurau, R. and Bulou, S. and Sindzingre, T. and Belmonte, T. and Choquet, P.} } @Article { 201-4444, title = {Plasma synthesis of hexagonal-pyramidal graphite hillocks.}, journal = {Carbon}, year = {2014}, volume = {76}, pages = {330-340}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.carbon.2014.04.084}, author = {Glad, X. and de Poucques, L. and A. Jaszczak, J. and Belmahi, M. and Ghanbaja, J. and Bougdira, J.} } @Article { 201-4380, title = {Role of ceria nanoparticles on the electrodeposition zinc coating{\^a}??s growth{\^A} : Interest of a TEM-Scale investigation}, journal = {ECS Electrochemistry Letters}, year = {2014}, volume = {39}, pages = {D33-D35}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1149/2.0011410eel}, author = {Exbrayat, L. and Calvi{\'e}, E. and Douillard, T. and Marcos, G. and Savall, C. and Berziou, C. and Creus, J. and Steyer, P.} } @Article { 201-4353, title = {Synthesis of carbon fibres by electrical discharges in heptane}, journal = {Materials Letters}, year = {2014}, volume = {135}, pages = {115-118}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1016/j.matlet.2014.07.158}, author = {Hamdan, A. and Noel, C. and Belmonte, T.} } @Article { 201-4177, title = {The evidence of cathodic micro-discharges during plasma electrolytic oxidation process}, journal = {Applied Physics Letters}, year = {2014}, volume = {104}, pages = {081603}, abstract = {Plasma electrolytic oxidation (PEO) processing of EV31 magnesium alloy has been carried out in fluoride containing electrolyte under bipolar pulse current regime. Unusual PEO cathodic microdischarges have been observed and investigated. It is shown that the cathodic micro-discharges exhibit a collective intermittent behavior, which is discussed in terms of charge accumulations at the layer/electrolyte and layer/metal interfaces. Optical emission spectroscopy is used to determine the electron density (typ. 1015cm_3) and the electron temperature (typ. 7500K) while the role of F_ anions on the appearance of cathodic micro-discharges is pointed out.}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1063/1.4866425}, author = {Nomin{\'e}, A. and Martin, J. and Noel, C. and V. Bardin, I. and L. Kovalev, V. and Belmonte, T. and G. Rakoch, A. and Henrion, G.} } @Article { 201-4346, title = {Time-resolved imaging of nanosecond-pulsed micro-discharges in heptane}, journal = {Journal of Physics D: Applied Physics}, year = {2014}, volume = {47}, pages = {055203}, note = {D{\'e}partement CP2S : Exp{\'e}riences et Simulations des Plasmas R{\'e}actifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS}, DOI = {10.1088/0022-3727/47/5/055203}, author = {Hamdan, A. and Marinov, I. and Rousseau, A. and Belmonte, T.} }