about
Additive manufacturing of metals: a brief review of the characteristic microstructures and properties of steels, Ti-6Al-4V and high-entropy alloys.Modelling the Crystallization Reactions of Amorphous Precursors in Fe 3 B/Nd 2 Fe 14 B Nanocomposite MagnetsRefinement of precipitate distributions in an age-hardenable Mg–Sn alloy through microalloyingA thermodynamic assessment of the Mg–Nd binary system using random solution and associate models for the liquid phaseCurrent and emerging practices of CALPHAD toward the development of high entropy alloys and complex concentrated alloysChange in the primary solidification phase from fcc to bcc -based B2 in high entropy or complex concentrated alloysMapping the world of complex concentrated alloysNew strategies and tests to accelerate discovery and development of multi-principal element structural alloysPhysical properties of the multifunctional Mg 80 Ni 10 Gd 10 alloyLight iron and hard magnesium nanocompositesMulti-scale architectured thermoelectric materials in the Mg2(Si,Sn) systemThermoelectric Properties of Ni0.05Mo3Sb5.4Te1.6with Embedded SiC and Al2O3NanoparticlesEffect of microstructure on the thermal conductivity of nanostructured Mg 2 (Si,Sn) thermoelectric alloys: An experimental and modeling approachEffects of additions of carbon nanotubes on the thermoelectric properties of Ni0.05Mo3Sb5.4Te1.6Low thermal conductivity of endogenous manganese silicide/Si composites for thermoelectricityMicrostructural design of new high conductivity – high strength Cu-based alloyThermal conductivity of β-FeSi2/Si endogenous composites formed by the eutectoid decomposition of α-Fe2Si5Calphad description of the Ge-Mn systemColloidal synthesis and functional properties of quaternary Cu-based semiconductors: Cu2HgGeSe4Combinatorial Approach Based on Interdiffusion Experiments for the Design of Thermoelectrics: Application to the Mg2(Si,Sn) AlloysStabilization by Si Substitution of the Pseudobinary Compound Gd2(Co3–xSix) with Magnetocaloric Properties around Room TemperatureThermodynamic description of Ge-Mn-SiColloidal synthesis and thermoelectric properties of Cu2SnSe3nanocrystalsCore–Shell Nanoparticles As Building Blocks for the Bottom-Up Production of Functional Nanocomposites: PbTe–PbS Thermoelectric PropertiesCu2HgSnSe4 nanoparticles: synthesis and thermoelectric propertiesEffect of co-substitution of Mn and Al on thermoelectric properties of chromium disilicideEffect of Composition on Thermoelectric Properties of Polycrystalline CrSi2Lattice dynamics and structure of GeTe, SnTe and PbTePolyamorphism in cerium based bulk metallic glasses: Electronic and structural properties under pressure and temperature by x-ray absorption techniquesThermoelectric properties of chromium disilicide prepared by mechanical alloyingThermoelectric properties of composites made of Ni0.05Mo3Sb5.4Te1.6 and fullereneBottom-up processing of thermoelectric nanocomposites from colloidal nanocrystal building blocks: the case of Ag2Te–PbTeCrystallographic Control at the Nanoscale To Enhance Functionality: Polytypic Cu2GeSe3 Nanoparticles as Thermoelectric MaterialsCu2ZnGeSe4 Nanocrystals: Synthesis and Thermoelectric PropertiesMagnetic structure of the ferromagnetic new ternary silicide Nd5CoSi2Study of the hydrogenation mechanism of LaCuMg8 ternary phase: The decomposition induces kinetics improvementMagnetocaloric effect in Tb60Ni30Al10 glass: A material that can either heat or cool upon magnetizationNanostructuration via solid state transformation as a strategy for improving the thermoelectric efficiency of PbTe alloysThe new ternary silicide Gd5CoSi2: Structural, magnetic and magnetocaloric propertiesTunable magnetocaloric effect in Gd-based glassy ribbons
P50
Q42364088-BA7CA059-36CB-47B4-BDDA-51FFB32C2DA4Q57453247-9A885259-E8D1-44AB-BE9A-F148FB008131Q57453299-688195DD-C640-4F9B-8C8E-BBFE4215BE00Q57453303-3678044E-0C49-4FF4-8041-A650072731E5Q57454944-786C66A9-544A-47FE-9A41-ADA11D1F2C95Q57454947-B73033E4-DC44-4976-9979-40B9CC0AE8A9Q57454950-C18F59F0-6BB5-4247-A699-833E6A5ED665Q57454953-27D15AC2-2336-4CD4-A5C4-056F6207445EQ57454958-A2AD88A5-3282-43ED-B41C-E35AB45879D5Q57454963-384146F2-DF30-4CF3-AC5C-5341F168F31BQ57454967-F2E5D903-9056-4633-A466-1D24D7D88FF4Q57454972-CE42CFB4-4A9D-41F8-A6D7-292E44C1573FQ57454975-2B82F50A-539C-4DFD-8208-C4BD9CE3C0EAQ57454982-A3F1BB7B-7648-49C0-8176-3F7128228B86Q57454986-45942B20-8643-4C89-8EE9-44A65BFADD0DQ57454991-404DFA9D-06AD-43C3-A28B-C79E1BBC1C92Q57454994-E311FCE0-28F3-4CBE-813E-D2C80F0BFA55Q57454998-8F1247CB-E7E8-43B4-8EDD-E74E14C82CAFQ57455001-0FECCFD8-90B9-4AD8-B8A6-6CF701249D55Q57455005-EC99797D-7FF1-498F-843F-936F0F17BF98Q57455008-1E253C24-7E53-4A8F-82CB-BB296D179C1BQ57455011-EB5540B4-20BC-476B-8C2B-7DC12A25555CQ57455016-A7CC7938-C3A0-4348-8F51-57036AD1BE71Q57455019-C857539A-6440-450D-AC12-0155F25DA514Q57455023-91736FFA-55F0-4203-B017-9CE1AA37DAC4Q57455027-30B96541-DE44-428D-8E33-E0E9607ADBF1Q57455032-7F1597AD-D3F8-4632-BE04-DF9400F89650Q57455035-138C30C3-8012-47FB-B19A-5A14FB6AC643Q57455038-087F1C0F-EE98-40C7-8BB6-286764DB12B2Q57455042-DCCFE85D-A558-4370-908C-A026B6334E60Q57455047-F57FD816-A35D-47A9-9B01-33EF10DAFA01Q57455052-3B9D08EE-DA2D-47F4-AB9E-5632282795E2Q57455056-8C8E5D73-2941-4B17-8506-FCE83B306B49Q57455060-267DA478-69A7-4CAB-BDF2-D05921C3181EQ57455066-21AE8B0A-4BCF-414D-8530-AFB75BC9FBD7Q57455070-6B42CDC9-C23C-4281-9104-117BA33DB036Q57455073-7BEA228B-60B8-479E-B906-54113B855502Q57455076-2DD9B77E-1308-4BEE-90C3-6CDE49791606Q57455080-E94D106E-2ED2-4EF2-945E-5352E05EE3D6Q57455082-33876242-A6D1-42F0-A59A-6B4A3945196B
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
研究者
@zh
name
Stéphane Gorsse
@ast
Stéphane Gorsse
@en
Stéphane Gorsse
@es
Stéphane Gorsse
@nl
type
label
Stéphane Gorsse
@ast
Stéphane Gorsse
@en
Stéphane Gorsse
@es
Stéphane Gorsse
@nl
prefLabel
Stéphane Gorsse
@ast
Stéphane Gorsse
@en
Stéphane Gorsse
@es
Stéphane Gorsse
@nl
P1053
F-5170-2017
P106
P1153
6603168609
P2038
Stephane_Gorsse
P31
P3829
P3835
stephane-gorsse
P496
0000-0003-1966-8476