Liste des travaux scientifiques publiés impliquant la plateforme SPS, sur la période 2015-2022.

Céramiques structurales

  • Low intrinsic thermal conductivity of Spark Plasma Sintered dense KNbO3 and NaNbO3 perovskite ceramics – Delorme F., Chen C., Schoenstein F., Jaber N., Jean F., Bah M., Simon Q., Chartier T., Laffez P., Monot-Laffez I., Giovannelli F. – Thermochimica Acta 695-178807 – 2021 – Article
  • Chemical and microstructural characterization of HfO2-Y2O3 ceramics with high amount of Y2O3 (33, 40 and 50 mol. %) manufactured using spark plasma sintering – Audouard L., Tsoutsouva M.G., Horezan N., Rimpot E., Justin J.F., Bertrand P., Langlade C., Garcia M., Julian-Jankowiak A. – Journal of the European Ceramic Society Volume 43, Issue 5, May 2023, Pages 2093 – 2103- 2022 – Article – DOI
  • Nanostructuring of dense SnO2 ceramics by Spark Plasma Sintering – Delorme F., Dujardin R., Schoenstein F., Pintault B., Belleville P., Autret C., Monot-Laffez I., Giovannelli F. – Ceramics International Volume 45, Issue 7, Part A, Pages 8313-8318 – 2019 – Article – DOI
  • Morphology and luminescence of MgAl2O4 ceramics obtained via spark plasma sintering – Pille A., Spiridigliozzi H., Amamra M., Billeton T., Zaghrioui M., Feldbach E., Kanaev A., Schoenstein F. – Ceramics International Volume 45, Issue 7, Part A, Pages 8305-8312 – 2019 – Article – DOI
  • Improved ZT in ball-milled and spark plasma sintered Cu15As30Te55 glass ceramics – Morin C., Monnier J., Vaney J.-B., Delaizir G., Piarristeguy A., Candolfi C., Pradel A., Lenoir B., Alleno E. – Journal of the American Ceramic Society, 102, n°5, p.2684-2695 – 2019 – Article – DOI
  • Effect of the sintering method on microstructure and thermal and mechanical properties of zirconium oxophosphate ceramics Zr2O(PO4)2 – Bregiroux D., Cedelle J., Ranc I., Barreteau C., Mata Osoro G., Wallez G. – Journal of Physics and Chemistry of Solids 111, 304–310 – 2017 – Article – DOI 

Matériaux ferroélectriques

  • Thermoelectric properties of oxygen deficient (K0.5Na0.5)NbO3 ceramics – Delorme F., Bah M., Schoenstein F., Jean F., Zouaoui Jabli M., Monot-Laffez I. – Mater. Lett, 162, 24-27 – 2016 – Article – DOI
  • Synthesis, microstructure and electromechanical properties of undoped (K0.5Na0.5)NbO3 – Bah M., Giovannelli F., Schoenstein F., Feuillard G., Le Clezio E., Monot-Laffez I. – Adv. Appl. Ceram., 114, 211-219 – 2015 – Article – DOI
  • Ultrasonic transducers based on undoped lead-free (K0.5Na0.5)NbO3 ceramics – Bah M., Giovannelli F., Schoenstein F., Brosseau C., Deschamps J-R., Dorvaux F., Haumesser L., Le Clezio E., Monot-Laffez I. – Ultrasonics, 63, 23-30 – 2015 – Article – DOI

Magnétisme

  • Investigation of piezomagnetism in nickel ferrite – Aubert A., Loyau V., Mazaleyrat F., LoBue M. – IEEE Transactions on Magnetics 57 – 2021 – Article – HAL
  • From Ni–P Metastable Alloy Nanoparticles to Bulk Submicrometer Grain-Sized MMCs with Tunable Mechanical and Magnetic Properties – Ali Bousnina M., Schoenstein F., Mercone S., Jouini N. – Metals 2020, 10, 112 – 2020 – Article – DOI
  • Exchange-bias feature in CoFe2O4-NiO ceramic prepared by flash sintering E-biased composite powder – Franceschin G., Gaudisson T., Yaacoub N., Grenèche J.-M., Menguy N., Mazalyerat F., Ammar-Merah S. – Journal of Material Chemistry C, 8, 5941–5949 – 2020 – Article – DOI
  • Nitrogenation and sintering of (Nd-Zr)Fe10Si2 tetragonal compounds for permanent magnets applications – Barandiaran J.M., Martin-Cid A., Schönhöbel A.M., Garitaonandia J.S., .Gjoka M., Niarchos D., Makridis S., Pasko A., Aubert A., Mazaleyrat F., Hadjipanayis G. – Journal of Alloys and Compounds 784, pp.996-1002 – 2019 – Article – DOI
  • On the limit of RSPS to design exchange-biased oxides-based nanostructured ceramics : the case of CoFe2O4-NiO system – Franceschin G., Gaudisson T., Menguy N., Valenzuela R., Mazaleyrat F., Ammar S., – Scientific Reports, 9, 19468. – 2019 – Article – DOI
  • Anisotropy of the ferromagnetic L1(0) phase in the Mn-Al-C alloys induced by high-pressure spark plasma sintering – Tyrman M., Ahmim S., Pasko A., Etgens V., Mazaleyrat F., Quetel-Weben S., Perriere L., Guillot I. – AIP Advances 8 # 056217 – 2018 – Article – DOI 
  • Microstructure characterization of an aluminium alloy processed by milling followed by spark plasma sintering – Charfeddine S., Zehani K., Bessais L., Korchef A. – Crystal Research and Technology, 53, (2018) 1700137 – 2018 – Article – DOI
  • Ferrite Nanostructures Consolidated by Spark Plasma Sintering (SPS) – Acevedo U., Breitwieser R., Ammar S., Valenzuela R. – Nanostructured Materials » Edited by M Seehra, ISBN 978-953-51-5244-6, InTechOpen – 2017 – Chapitre de livre
  • Ferromagnetic L10 phase formation in the Mn-Al-C alloys induced by high-pressure spark plasma sintering – Tyrman M., Quetel-Weben S., Pasko A., Perrière L., Guillot I., Etgens V., Mazaleyrat F. – IEEE Trans. Mag., 53 ; 2101505 – 2017 – Article – DOI 
  • Anisotropy of the ferromagnetic L10 phase in the Mn-Al-C alloys induced by high-pressure spark plasma sintering – Tyrman M., Ahmim S., Pasko A., Etgens V., Mazaleyrat F., Quetel-Weben S., Perrière L., Guillot I. – AIP Advances, 8.5 ; 056217 – 2017 – Article – DOI
  • Magnetic Oxides-based Hetero-Nanostructured Ceramics : From Nanomaterial Engineering to Exchange-bias Coupling – Franceschin G. – Thèse de l’université Paris Diderot – 2017 – Thèse
  • Low temperature-short time SPS processes to produce fine-grained high-coercivity barium hexaferrite ceramics from polyol nanoparticles – Vázquez-Victorio G., Flores-Martínez N., Franceschin G., Nowak S., Ammar S., Valenzuela R. – Journal of Superconductivity and Novel Magnetic Materials, 30, 1 – 2017 – Article – DOI 
  • Severe reduction of Ni-Zn ferrites during consolidation by Spark Plasma Sintering (SPS) – Valenzuela R., Gaudisson T., Ammar S. – Journal of Magnetism and Magnetic Materials, 400, 311 – 2016 – Article – DOI
  • Bulk nanostructured Ni-P alloys : Elaboration from metastable Ni-P nanoparticles by spark plasma sintering ; mechanical and magnetic properties – Bousnina M.A., Turki F., Schoenstein F., Tetard F., Rabu P., Smiri L.S., Jouini N. – Journal of Alloys and Compounds, 686, 252-266 – 2016 – Article – DOI
  • SPS co-sintered monolithic transformers for power electronics – Mercier A., Zehani K., Chaplier G., Pasko A., Loyau V., Mazaleyrat F. – IEEE Transactions on Magnetics, 52 (5), pp. 8400404 – 2016 – Article – DOI
  • Contribution à l’étude et à la réalisation de composants magnétiques monolithiques réalisés par PECS/SPS et à leurs applications en électronique de puissance – Mercier A. – Thèse de l’université Paris-Saclay (Directeur de thèse : Mazaleyrat F.) – 2016 – Thèse
  • Facile synthesis of metastable Ni-P nanostructured materials by a novel bottom-up strategy – Bousnina M.A., Schoenstein F., Smiri L.S., Jouini N. – Solid State Sci. 40, 13-19 – 2015 – Article – DOI
  • Ultrafine grained high density soft manganese zinc ferrite produced using Polyol Process Assisted by Spark Plasma Sintering – Gaudisson T., Beji Z., Herbst F., Nowak S., Ammar S., Valenzuela R. – Journal of Magnetism and Magnetic Materials, 387, 90-95 – 2015 – Article – DOI
  • SPS co-sintered monolithic transformers for power electronic – Mercier A., Zehani K., Chaplier G., Pasko A., Loyau V. et Mazaleyrat F. – Magnetics, IEEE Transactions on, PP, n°99, 1-1 – 2015 – Article – DOI
  • Hétéro-nanostructures granulaires magnétiquement contrastées. Des nanoparticules d’oxydes aux aimants permanents – Gaudisson T. – Thèse de l’Université Paris Diderot (Directeurs de thèse Ammar S. et Mazaleyrat F.) – 2015 – Thèse
  • Characterization of magnetic phase transitions in ferrite nanoparticles by electron spin resonance (ESR) – Flores-Arias Y., López-Bonilla I., Vázquez-Victorio G., Ortega-Zempoalteca R., Ammar S., Valenzuela R. – Journal of Applied Physics, 117, 17A503 – 2015 – Article – DOI
  • Cobalt Doping Effect on Ni-Zn-Cu FerritesProduced byReactive Sintering – Mercier A., Chaplier G., Pasko A., Loyau V., Mazaleyrat F. – Physics Procedia, Elsevier, 75, pp.1306 – 1313. – 2015 – Proceeding – DOI

Matériaux magnéto-caloriques

  • Magnetocaloric nanostructured La0.7Ca0.3-xBaxMnO3 (0<x<0.3) ceramics produced by combining polyol process to Spark Plasma Sintering – Ayadi F., Ammar S., Cheikhrouhou-Koubaa W., Cheikhrouhou A., Nowak S., Monnier J., Sicard L. – Journal of Alloys & Compounds, 691 474 – 2017 – Article – DOI
  • Properties of La(Fe,Co,Si)13 magnetocaloric compounds prepared by reactive Spark Plasma Sintering – Paul-Boncour V., Patissier A., Nakouri K. et Bessais L. – 7th IIF-IIR International Conference on Magnetic Refrigeration (Thermag VII), Turin, Italie, 11-14/9/2016 – 2016 – Proceeding
  • Study of the first paramagnetic to ferromagnetic transition in as prepared samples of Mn–Fe–P–Si magnetocaloric compounds prepared by different synthesis routes – Bartok A., Kustov M., Cohen L-F., Pasko A., Zehani K., Bessais L., Mazaleyrat F., LoBue M. – Journal of Magnetism and Magnetic Materials Volume 400, Pages 333–338 – 2016 – Article – DOI
  • Preparation of nanostructured La0.7Ca0.3-xBaxMnO3 ceramics by a combined sol-gel and spark plasma sintering route and resulting magnetocaloric properties – Ayadi F., Regaieg Y., Cheikhrouhou-Koubaa W., Koubaa M., Cheikhrouhou A., Lecoq H., Nowak S., Ammar S., Sicard L. – J. Magn. Magn. Mater. 381, 215-219 – 2015 – Article – DOI
  • A combined Sol-gel and Spark Plasma Sintering route to produce La0.7Ca0.3-xBaxMnO3 ceramics for magnetocaloric applications – Ayadi F., Regaieg Y., Cheikhrouhou-Koubaa W., Cheikhrouhou A., Koubaa M., Nowak S., Ammar S., Sicard L. – Journal of Magnetism and Magnetic Materials, 81, 215-219 – 2015 – Article
  • Fast synthesis of LaFe13-xSix magnetocaloric compounds by reactive Spark Plasma Sintering – Patissier A., Paul-Boncour V. – Journal of Alloys and Compounds – 2015 – Article – DOI

Matériaux magnéto-électriques / multi-ferriques

  • Enhanced magnetoelectric voltage in ferrite/PZT/ferrite composite for AC current sensor application – Aubert A., Loyau V., Chaplier G., Mazaleyrat F., Lobue M. – Journal Of Materials Science-Materials In Electronics 29, pp.14435-14444 – 2018 – Article – DOI 
  • Dynamic Magnetostriction of CoFe2O4 and Its Role in Magnetoelectric Composites – Aubert A., Loyau V., Pascal Y., Mazaleyrat F., LoBue M. – Physical Review Applied 9 # 044035 – 2018 – Article – DOI 
  • Synthèse, caractérisation et modélisation de matériaux multiferroiques (magnétoélectriques) composites massifs – Aubert A. – Université Paris Saclay – 2018 – Thèse – tel-01909416
  • An impedance spectroscopy study of magnetodielectric coupling in BaTiO3-CoFe2O4 Nanostructured Multiferroics – Acevedo U., Breitwieser R., Lopez Noda R., Ammar S., Valenzuela R. – AIP Advances, 7, 055813 – 2017 – Article – DOI 
  • Analytical modeling of demagnetizing effect in magnetoelectric ferrite/PZT/ferrite trilayers taking into account a mechanical coupling – Loyau V., Aubert A., LoBue M., Mazaleyrat F. – Journal of Magnetism and Magnetic Materials Volume 426, Pages 530–539 – 2017 – Article – DOI
  • Uniaxial anisotropy and enhanced magnetostriction of CoFe2O4 induced by reaction under uniaxial pressure with SPS – Aubert A., Loyau V., Mazaleyrat F., LoBue M. – J. Eur. Ceram. Soc., 37, 3101_3105 – 2017 – Article – HAL 
  • Enhancement of the Magnetoelectric Effect in Multiferroic CoFe2O4/PZT Bilayer by Induced Uniaxial Magnetic Anisotropy – Aubert A., Loyau V., Mazaleyrat F., LoBue M. – IEEE Trans. Magn., 53, 1-5 – 2017 – Article – HAL 
  • Nanostructured tetragonal barium titanate produced by the Polyol and Spark Plasma Sintering (SPS) route – Acevedo-Salas U., Gaudisson T., Nowak S., Ammar S., Valenzuela R. – Applied Physics : A, 123, 659 – 2017 – Article – DOI 
  • Magnetoelectric effect in layered ferrite/PZT composites. Study of the demagnetizing effect on the magnetoelectric behavior – Loyau V., Morin V., Chaplier G., Lo Bue M., Mazaleyrat F. – Journal of Applied Physics 117, 184102 – 2016 – Article – DOI
  • A method to decrease the harmonic distortion in Mn-Zn ferrite/PZT and Ni-Zn ferrite/PZT layered composite rings exhibiting high magnetoelectric effects – Loyau V., Morin V., Fortineau J., Lo Bue M., Mazaleyrat F. – Journal of Applied Physics 118, 15410 – 2015 – Article – DOI
  • Elaboration de composites multiferroïques et caractérisation de l’effet magnétoélectrique – Morin V. – Thèse de l’Université Paris-Saclay – 2015 – Thèse
  • Magnetoelectric Coupling in BaTiO3–CoFe2O4 Nanocomposites Studied by Impedance Spectroscopy Under Magnetic Field – Lopez Noda R., Acevedo U., Gaudisson T., Calderon Pinar F., Ammar S., Valenzuela R. – IEEE Transactions on magnetism, 50, 1 – 2015 – Article – DOI

Mécanique

  • SHS Synthesis, SPS Densification and Mechanical Properties of Nanometric Tungsten – Dine S., Bernard E., Herlin N., Grisolia C., Tingaud D., Vrel D. – Metals, vol.11, 252 – 2020 – Article – DOI
  • Powder Metallurgy Processing and Mechanical Properties of Controlled Ti-24Nb-4Zr-8Sn Heterogeneous Microstructures – Fer B., Tingaud D., Hocini H., ao Y., Leroy E., Prima F., Dirras G. – Metals, vol.10, 1626 – 2020 – Article – DOI
  • Lattice Strain Evolutions in Ni-W Alloys during a Tensile Test Combined with Synchrotron X-ray Difraction – Sadat T., Faurie D., Thiaudière D., Mocuta C., Tingaud D., Dirras G. – Materials, vol.13, 4027 – 2020 – Article – DOI
  • Physico-chemical and mechanical properties of Ti3SiC2-based materials elaborated from SiC/Ti by reactive spark plasma sintering – Turki F., Abderrazak H., Schoenstein F., Têtard F., Abdellaoui M., Jouini N. – Journal of Advanced Ceramics, 8(1): 47–61 – 2019 – Article – DOI
  • Nickel-Tungsten Composite-Like Microstructures Processed by Spark Plasma Sintering for Structural Applications – Tingaud D., Sadat T., Dirras G. – Spark Plasma Sintering of Materials Springer – 2019 – Chapitre de livre – DOI
  • Spark Plasma Sintering as a Route for Producing In-Demand Microstructures : Application to the Tensile-Ductility Enhancement of Polycrystalline Nickel : Advances in Processing and Applications – Langlois P., Tingaud D., Dirras G. – Spark Plasma Sintering of Materials, Springer – 2019 – Chapitre de livre – DOI
  • Alliages métalliques réfractaires multi-composants à haute entropie : formulation et évolution microstructurale et comportement mécanique en grandes déformations – Kentheswaran V. – Université de Paris 13 – 2019 – Thèse
  • Biocompatible silica-based magnesium composites – Panemangalore D.B., Shabadi R., Tingaud D., Touzin M., Ji G. – Advanced Engineering Materials, vol.772, 49-57 – 2018 – Article
  • SHS Synthesis and SPS Densification of Nanometric Tungsten – Dine S., Bernard E., Herlin Boime N., Grisolia C., Tingaud D., Vrel D. – Advanced Engineering Materials, 1701138 – 2018 – Article – DOI
  • Data on the influence of cold isostatic pre-compaction on mechanical properties of polycrystalline nickel sintered using Spark Plasma Sintering – Dutel G.D., Langlois P., Tingaud D., Vrel D., Dirras G. – Data in Brief, vol. 11, 61-67 – 2017 – Article – DOI
  • SPS parameters influence on Ti3SiC2 formation from Si/TiC : Mechanical properties of the bulk materials – Turki F., Abderrazak H., Schoenstein F., Abdellaoui M., Jouini N. – J. Alloy. Compd., 708, 123-133 – 2017 – Article – DOI
  • Bulk Ni–W alloys with a composite-like microstructure processed by spark plasma sintering : Microstructure and mechanical properties – Sadat T., Dirras G., Tingaud D., Ota M., Chauveau T., Faurie D., Vajpai S., Ameyama K. – Materials and Design 89, 1181–1190 – 2016 – Article – DOI
  • Data on the impact of increasing the W amount on the mass density and compressive properties of Ni–W alloys processed by spark plasma sintering – Sadat T., Hocini A., Lilensten L., Faurie D., Tingaud D., Dirras G. – Data in Brief, vol. 7, 1405-1408 – 2016 – Article – DOI
  • Fracture behavior of Ni-W alloy probed by in situ synchrotron X-ray diffraction – Sadat T., Faurie D., Tingaud D., Mocuta C., Thiaudière D., Dirras G. – Materials Letters, vol.239, 116-119 – 2019 – Article – DOI
  • Investigation of deformation micro-mechanisms in nickel consolidated from a bimodal powder by spark plasma sintering – Tingaud D., Jenei P., Krawczynska A., Mompiou F., Gubicza J., Dirras G. – Material Characterization 99, 108 – 2015 – Article – DOI
  • Interfacial characterization in carbon nanotube reinforced aluminum matrix composites – Housaer F., Beclin F., Touzin M., Tingaud D., Legris A., Addad A. – Materials Characterization 110, 94–101 – 2015 – Article – DOI
  • Matériaux Métalliques Multi-structurés élaborés par Frittage Flash : étude des micro-mécanismes de déformation par diffraction des rayons X et traction in situ – Tarik Sadat – Thèse de l’Université Paris XIII – 2015 – Thèse
  • Elaboration et caractérisation de composites Aluminium/Nanotubes d carbone obtenus par métallurgie des poudres – François Housaer – Thèse de l’Université Lille 1 – 2015 – Thèse

Métallurgie

  • Chemically architectured alloys: How interphase width influences the strengthening – Mereib D., Monnier J., Perrière L., Villeroy B., Laurent-Brocq M. – Journal of Alloys and Compounds, 904, 163997 – 2022 – Article – DOI
  • Microstructure and mechanical properties of a CoCrFeMnNi high entropy alloy processed by milling and spark plasma sintering – Laurent-Brocq M., Goujon P.A., Monnier J., Villeroy B., Perrière L., Pirès R., Garcin G. – Journal of Alloys and Compounds, 780, 856 – 2018 – Article – DOI

Modélisation du frittage

  • Spark plasma sintering and H2 pre-annealing of copper ultrafine powder – Monnier J., Champion Y., Perrière L., Villeroy B. et Godart C. – Materials Science and Engineering A, 621, 61-67 – 2015 – Article – DOI

Optique

  • Structural defects effect in fine-grained MgAl2O4 sintered ceramics: optical and RPE properties as function of microstructure – Spiridigliozzi H., Mercone S., Lang G., Feldbach E., Kanaev A., Schœnstein F. – Eur. Phys. J. 231, 4167-4171 – 2022 – Article
  • Original implementation of low-temperature SPS for bioactive glass used as a bone biomaterial – Gharbi A., Ayadi S., Jouini N., Schoenstein F., Oudadess H., El Feki H., Cheikhrouhou-Koubaa W. – J. Mec. Beahvior Biomed. Mater. 126, 104988 – 2022 – Article
  • Effects of Ta doping and irradiation with He+ ions on photoluminescence of MgAl2O4 spinel ceramics – Spiridigliozzi H., Pille A., Schoenstein F., Museur L., Feldbach E., Mändar H., Kitaura M., Kanaev A. – J. Europ. Ceram. Society, Vol 40, 3215-3221- 2020 – Article – DOI
  • Microstructure and optical properties of alumina sintered from various phases – Pille A., Amamra M., Kanaev A., Schoenstein F. – Ceram. Int. 45, 9625-9630 – 2019 – Article – DOI
  • Morphology and luminescence of MgAl2O4 ceramics obtained via spark plasma sintering – Pille A., Spiridigliozzi H., Amamra M., Billeton T., Zaghrioui M., Feldbach E., Kanaev A., Schoenstein F. – J. Europ. Ceram. Society, Vol 45, 8305-8312 – 2019 – Article – DOI
  • Nanostructured Y2O3 ceramics elaborated by Spark Plasma Sintering of nanopowder synthesized by PEG assisted combustion method : The influence of precursor morphological characteristics – Krsmanović Whiffen R.M., Bregiroux D., Viana B. – Ceramics International 43, 15834–15841 – 2017 – Article – DOI
  • Spark plasma sintering of ultra-porous gamma-Al2O3 – Toldsepp E., Schoenstein F., Amamra M., Saar R., Feldbach E., Kanaev A., Kirm M. – Ceramics International, 42, 11709-11715 – 2016 – Article – DOI
  • Sintering of nanostructured Sc2O3 ceramics from sol–gel-derived nanoparticles – Poirot N., Bregiroux D., Boy P., Autret-Lambert C., Belleville P., Bianchi L. – Ceramics International, 41, 3879-3887 – 2015 – Article – DOI

Polymères poreux

  • Synergistic actions of mixed small and large pores for capillary absorption through biporous polymeric materials – Lerouge T., Pitois O., Grande D., Le Droumaguet B., Coussot P. – Soft Matter, 2018,14, 8137 – 2018 – Article – DOI : http://dx.doi.org/10.1039/C8SM01400K
  • Microstructure et propriétés de transport de matériaux polymères biporeux – Mezhoud S. – Université Paris-Est – 2018 – Thèse
  • Matériaux polymères fonctionnalisés à double porosité : conception et modélisation – Ly H. B. – Thèse de l’ université Paris-Est – 2015 – Thèse
  • Facile Fabrication of Doubly Porous Polymeric Materials with Controlled Nano- and Macro-Porosity – Ly H. B., Le Droumaguet B., Monchiet V., Grande D. – Polymer, 78, 13 – 2015 – Article – DOI:10.1016/j.polymer.2015.09.048

Procédés

  • Spark Plasma Sintering of Metallic Glasses – Perrière L. – Spark Plasma Sintering of Materials, Springer – 2019 – Chapitre de livre
  • Ferrite Nanostructures Consolidated by Spark Plasma Sintering (SPS) – Acevedo U., Breitwieser R., Ammar S., Valenzuela R. – “Nanostructured Materials » Edited by M Seehra, InTechOpen. – 2017 – Chapitre de livre
  • Sintering and reactive sintering by Spark Plasma Sintering (SPS) – Franceschin G., Flores-Martínez N., Vázquez-Victorio G., Ammar S., Valenzuela R. – “Sintering” Edited by I Shishkovsky, InTechOpen – 2017 – Chapitre de livre

Stockage batteries (Ni/MH – Li)

  • Hybrid Li Ion Conducting Membrane as Protection for the Li Anode in an Aqueous Li−Air Battery : Coupling Sol−Gel Chemistry and Electrospinning – Lancel G., Stevens P., Toussaint G., Maréchal M., Krins N., Bregiroux D., Laberty-Robert C. – Langmuir, 33, 9288−9297 – 2017 – Article – DOI : http://doi.org/10.1021/acs.langmuir.7b00675

Synthèse et mise en forme

  • SrCuP and SrCuSb Zintl phases as potential thermoelectric materials – Moll A., Hamidou A., Crivello J.-C., Joubert J.-M., Alleno E., Barreteau C. – Journal of Alloys and Compounds, 942, 169123 – 2023 – Article – DOI : https://doi.org/10.1016/j.jallcom.2023.169123
  • Elaboration and Characterization of WMoTaNb High Entropy Alloy Prepared by Powder Metallurgy Processes – Moser M., Dine S., Vrel D., Perrière L., Pirès-Brazuna R., Couque H., Bernard F. – Materials, 15, n°15 – 2022 – Article – DOI : https://doi.org/10.3390/ma15155416
  • Spark plasma sintering of nanostructured ZnS ceramics: Grain growth control and improved hardness – Bregiroux B., Cedelle J. – Materials Science & Engineering A 827, 142064 – 2021 – Article – DOI : https://doi.org/10.1016/j.msea.2021.142064
  • Liquid-Phase Synthesis, Sintering, and Transport Properties of Nanoparticle-Based Boron-Rich Composites – Gouget G., Bregiroux D., Grosjean R., Montero D., Maier S., Gascoin F., Sanchez C., Portehault D. – Chemistry of Materials, 33, 2099−2109 – 2021 -Article – DOI : https://dx.doi.org/10.1021/acs.chemmater.0c04762
  • Chemical architecturation of high entropy alloys through powder metallurgy – Laurent-Brocq M., Mereib D., Garcin G., Monnier J., Perrière L., Villeroy B. – Journal of Alloys and Compounds N°835, p 155279 – 2020 – Article – DOI : https://doi.org/10.1016/j.jallcom.2020.155279
  • SPS-assisted synthesis of InGaO3(ZnO)m ceramics, and influence of m on the band gap and the thermal conductivity – Preaud S., Byl C., Brisset F., Berardan D. – Journal of the American Ceramic Society 103, 3030 – 2020 – Article – DOI : https://doi.org/10.1111/jace.17011
  • Synthesis of TiFe hydrogen absorbing alloys prepared by mechanical alloying and SPS treatment – Nobuki T., Moriya T., Hatate M., Crivello J.-C., Cuevas F., Joubert J.-M. – Metals, 8, n°4 (2018) 264-275 – 2018 – Article – DOI : https://doi.org/10.3390/met8040264
  • Nanoscale microstructural and chemical analysis of SiO2-Zn1-xAlxO nanocomposites : towards a better understanding of Si and Al substitution in ZnO – Gilbert M., Byl C., Bérardan D., Gloter A., Dragoe N., Vurpillot F. – Journal of the American Ceramic Society 98, 3948 – 2015 – Article – DOI : http://doi.org/10.1111/jace.13848
  • Cobalt doping effect on Ni-Zn-Cu ferrites produced by reactive sintering – Mercier A., Chaplier G., Pasko A., Loyau V., Mazaleyrat F. – Phys. Proc. 75, 1306-1313 – 2015 – Proceeding – DOI : http://doi.org/10.1016/j.phpro.2015.12.146
  • Oxydes pyrochlores : de l’élaboration aux propriétés sous irradiation – Sellami N. – Thèse de l’université Paris-Sud (Co-encadrant : Legros C.) – 2015 – Thèse – http://www.theses.fr/2015PA112003

Matériaux thermoéléctriques

  • Microstructure effects on thermal and electrical conductivities in the intermetallic compound Ag3Sn-based materials, sintered by SPS in view of die-attachment applications – Mahayri R., Mercone S., Giovannelli F., Tan K.L., Morelle J.M., Jouini N., Schoenstein F. – Eur. Phys. J. 231, 4173-4178 – 2022 – Article
  • Intrinsic non-stoichiometry and anomalous transport properties of layered oxysulfide LaOPbBiS3 – Roux-Byl C., Berardan D. – Journal of Materials Chemistry C 9, 12839 – 2021 – Article – DOI : https://doi.org/10.1039/d1tc03145g
  • Synthesis, sintering, and thermoelectric properties of Co1-xMxO (M = Na, 0 ≤ x ≤ 0.07; M = Ag, 0 ≤ x ≤ 0.05) – Chena C., Delorme F., Schoenstein F., Zaghrioui M., Flahaut D., Allouche J., Giovannelli F. – Journal of the European Ceramic Society Volume 39, Issues 2–3, February–March 2019, Pages 346-351 – 2019 – Article – DOI : https://doi.org/10.1016/j.jeurceramsoc.2018.10.013
  • Crystal Structure, Lattice Dynamics and Thermodynamic Properties of Thermoelectric Orthorhombic BaCu2Se2 Compound – R. Viennois, D. Berardan, C. Popescu – Journal of Physical Chemistry C 124, 13627 – 2020 – Article – DOI : https://doi.org/10.1021/acs.jpcc.0c03964
  • Low intrinsic thermal conductivity of Spark Plasma Sintered dense KNbO3 and NaNbO3 perovskite ceramics – Delorme F., Chen C., Schoenstein F., Jaber N., Jean F., Bah M., Simon Q., Chartier T., Laffez P., Monot-Laffez J., Giovannelli F. – Thermochimica Acta Volume 695, January 2021, 178807 – 2021 – Article – DOI : https://doi.org/10.1016/j.tca.2020.178807
  • Innovative synthesis of mesostructured CoSb3-based skutterudites by magnesioreduction – Le Tonquesse S., Alleno E., Demange V., Dorcet V., Joanny L., Prestipino C., Rouleau O., Pasturel M. – Journal of Alloys and Compounds, 796, p176-184 – 2019 – Article – DOI : https://doi.org/10.1016/j.jallcom.2019.04.324
  • Synthesis and transport properties of p-type lead-free AgSnmSbSe2Tem thermoelectric systems – Figueroa-Million S., Alvarez-Serrano I., Berardan D., Galdamez A. – Materials Chemistry and Physics 211, 321 – 2018 – Article – DOI : http://dx.doi.org/10.1016/j.matchem…
  • Promising high temperature thermoelectric properties of dense Ba2Co9O14 ceramics – Delorme F., Chen C., Pignon B., Schoenstein F., Perriere L., Giovannelli F. – J. Eur. Ceram. Soc. 37, 2615-2620 – 2017 – Article – DOI : https://doi.org/10.1016/j.jeurceramsoc.2017.01.034
  • High thermoelectric figure of merit in mesostructured In0.25Co4Sb12 n-type skutterudite – Benyahia M., Ohorodniichuk V., Leroy E., Dauscher A., Lenoir B., Alleno E. – Journal of Alloys and Compounds, 735, 1096-1104 – 2017 – Article – DOI : https://doi.org/10.1016/j.jallcom.2017.11.195
  • The role of ionized impurity scattering on the thermoelectric performances of rocksalt AgPbmSnSe2+m – Pan L., Mitra S., Zhao L-D., Shen Y., Wang Y., Felser C. , Bérardan D. – Advanced Functional Materials 26, 5149 – 2016 – Article – DOI : http://doi.org/10.1002/adfm.201600623
  • Skutterudites thermoélectriques nanostructurées – Benyahia M. – Thèse de l’université Paris-Est (Directeur de thèse : Alleno E.) – 2016 – Thèse
  • A modeling approach for new CrSi2 based alloys : Application to metastable Cr1-xZrxSi2 as a potential thermoelectric material – Mahmoud K., Beaudhuin M., Villeroy B., Ravot D. et Viennois R. – Journal of Alloys and Compounds, 662, 150-156 – 2016 – Article – DOI : https://doi.org/10.1016/j.jallcom.2015.12.048
  • Order-disorder transitions in the Fe2VAl Heusler alloy – Maier S., Denis S., Adam S., Crivello J.-C., Joubert J.-M. et Alleno E. – Acta Materialia, 121, 126-135 – 2016 – Article – DOI : https://doi.org/10.1016/j.actamat.2016.08.080
  • Thermoelectric properties of oxygen deficient (K0.5Na0.5)NbO3 ceramics – Delorme F., Bah M., Schoenstein F., Jean F., Zouaoui Jabli M., Monot-Laffez I., Giovannelli F. – Mater. Lett., 162, 24-27 – 2016 – Article – DOI : https://doi.org/10.1016/j.matlet.2015.09.124
  • BaCu2Se2 based compounds as promising thermoelectric materials – Li J., Zhao L-D., Sui J., Bérardan D., Cai W., Dragoe N. – Dalton Transactions 44, 2285 – 2015 – Article – DOI : http://doi.org/10.1039/c4dt03556a
  • Studies on the thermal stability of BiCuSeO – Barreteau C., Berardan D., Dragoe N. – Journal of Solid State Chemistry 222, 53 – 2015 – Article – DOI : http://doi.org/10.1016/j.jssc.2014.11.001
  • Transport properties of the SnBi2Te4-PbBi2Te4 solid solution – Pan L., Li J., Bérardan D., Dragoe N. – Journal of Solid State Chemistry 225, 168 – 2015 – Article DOI : http://doi.org/10.1016/j.jssc.2014.12.016
  • Structure and transport properties of the BiCuSeO-BiCuSO solid solution – Bérardan D., Li J., Amzallag E., Mitra S., Sui J., Cai W., Dragoe N. – Materials 8, 01043 – 2015 – Article – DOI : http://doi/.org/10.3390/ma8031043
  • Preparation and study of the thermoelectric properties of nanocrystalline Sn1-xTaxO2 (0<x<0.04) – Vo T.T.X., Le N.G.H., Pham Q.N., Byl C., Dragoe D., Barthes-Labrousse M-G., Bérardan D., Dragoe N. – Physica Status Solidi A 212, 2776 – 2015 – Article – DOI : http://doi.org/10.1002/pssa.201532281
  • Polymorphism in Thermoelectric As2Te3 – Morin C., Corallini S., Carreaud J., Vaney J.-B., Delaizir G., Crivello J-C., Lopes E.B., Piarristeguy A., Monnier J., Candolfi C., Nassif V., Cuello G.J., Pradel A., Goncalves A.P., Lenoir B., Alleno E. – Inorganic Chemistry, 54, 9936 – 2015 – Article – DOI : https://doi.org/10.1021/acs.inorgchem.5b01676
  • Synthèse et caractérisation de nanocomposites à base de ZnO pour des applications thermoélectriques – Byl C. – Thèse de l’université Paris-Sud – 2015 – Thèse – http://www.theses.fr/2015PA112045
  • Nanomatériaux pour applications thermoélectriques – Vo X. – Thèse de l’université Paris-Sud – 2015 – Thèse – http://www.theses.fr/2015PA112165

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