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kw.\*:("Propriété thermoélectrique")

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Results 1 to 25 of 3114

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Natural mineral tetrahedrite as a direct source of thermoelectric materialsXU LU; MORELLI, Donald T.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 16, pp 5762-5766, issn 1463-9076, 5 p.Article

Electron transport properties of carbon nanotubesRAM SESHADRI; AIYER, H. N; GOVINDARAJ, A et al.Solid state communications. 1994, Vol 91, Num 3, pp 195-199, issn 0038-1098Article

Etude de l'élaboration et des propriétés thermoélectriques du tellurure d'AntimoineGailliard, Lionel; Scherrer, Stanislas.1989, 158 p.Thesis

Fast phase formation of double-filled p-type skutterudites by ball-milling and hot-pressingQING JIE; HENGZHI WANG; WEISHU LIU et al.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 18, pp 6809-6816, issn 1463-9076, 8 p.Article

Effect of antimony doping on thermoelectric properties of Zr0.5Ti0,5NiSn multi-element alloysLIAO, Chien-Neng; WU, Huang-Nan; CHEN, Po-Chih et al.Annales de chimie (Paris. 1914). 2006, Vol 31, Num 6, pp 711-722, issn 0151-9107, 12 p.Article

The thermoelectric transport through carbon chainsWANG, B; XING, Y. X; WEI, Y. D et al.Carbon (New York, NY). 2005, Vol 43, Num 13, pp 2786-2791, issn 0008-6223, 6 p.Article

Fluctuation thermopower above the superconducting transition temperatureYONG LU; PATTON, B. R.Journal of physics. Condensed matter (Print). 1995, Vol 7, Num 48, pp 9247-9254, issn 0953-8984Article

Thermoelectric properties of p-type skutterudites YbxFe3.5Ni0.5Sb12 (0.8 < x ≤ 1)CHO, J. Y; YE, Z; TESSEMA, M. M et al.Acta materialia. 2012, Vol 60, Num 5, pp 2104-2110, issn 1359-6454, 7 p.Article

Thermoelectric properties of the welded Cu/Bi0.88 Sb0,12 /Cu composites in the temperature region from 193 K to 298 KODAHARA, Hirotaka; HIKI, Satoru; YAMASHITA, Osamu et al.Journal of materials science. 2007, Vol 42, Num 15, pp 6004-6010, issn 0022-2461, 7 p.Article

Importance of quasi-equilibrium in thermally stimulated luminescence and conductivitySUNTA, C. M; AYTA, W. E. F; CHUBACI, J. F. D et al.Radiation physics and chemistry (1993). 1998, Vol 51, Num 4-6, pp 527-528, issn 0969-806XConference Paper

Electrical resistivity and thermoelectric power of (TMTSF)2M(tds)2, M=Pt, Cu and Ni ; evidence for the existence of two different phasesMORGADO, J; ALCACER, L; ALMEIDA, M et al.Solid state communications. 1994, Vol 89, Num 9, pp 755-759, issn 0038-1098Article

Microprecipitation in boron-containing high-carbon steelsLANIER, L; METAUER, G; MOHAMED MOUKASSI et al.Mikrochimica acta (1966. Print). 1994, Vol 114-15, pp 353-361, issn 0026-3672Conference Paper

Observation of Coulomb blockade oscillations in the thermopower of a quantum dotDZURAK, A. S; SMITH, C. G; PEPPER, M et al.Solid state communications. 1993, Vol 87, Num 12, pp 1145-1149, issn 0038-1098Article

Seebeck coefficient of K2SO4LIN, C. Y; HIRAYAMA, C.Materials research bulletin. 1983, Vol 18, Num 11, pp 1329-1333, issn 0025-5408Article

Thermoelectric effect in a layered superconductorBELASHCHENKO, K. D; LIVANOV, D. V.Journal of low temperature physics. 1996, Vol 102, Num 1-2, pp 95-101, issn 0022-2291Article

Symposium 'Nanomaterials for Energy Conversion and Storage'CABOT, Andreu; LIU, Hong; ROBINSON, Richard D et al.International journal of nanotechnology. 2014, Vol 11, Num 9-11, issn 1475-7435, 307 p.Conference Proceedings

Thermoelectric Property of Nickel Nanowires Enhanced by ResistanceHUANG, Hao-Ting; GER, Tzong-Rong; CHIANG, Jia-Wei et al.IEEE transactions on magnetics. 2014, Vol 50, Num 1, issn 0018-9464, 2001003.1-2001003.4, 1Conference Paper

Enhanced thermoelectric properties of Bi2Te3 doping Zn4Sb3 by combinatorial approachWEN HSUAN CHAO; SHIH CHUN TSENG; PING HSING YANG et al.Surface & coatings technology. 2013, Vol 231, pp 34-37, issn 0257-8972, 4 p.Conference Paper

CALCUL DES F.E.M. THERMO-ELECTRIQUE DANS LES MODELES DE LA THEORIE DU PASSAGE DU COURANTSKAL AS.1982; Z. TEH. FIZ.; ISSN 0044-4642; SUN; DA. 1982; VOL. 52; NO 2; PP. 405-406; BIBL. 3 REF.Article

ETUDE DES PROPRIETES THERMOELECTRIQUES DES ALLIAGES DES COUPES SB1,8)BI0,2)TE3-BI2SE3 ET SB1,8)BI0,2)TE3-SB2SE3ABRIKOSOV N KH; PORETSKAYA LV; VASHELEISHVILI ZV et al.1980; IZV. AKAD. NAUK SSSR, NEORG. MATER.; ISSN 0002-337X; SUN; DA. 1980; VOL. 16; NO 8; PP. 1390-1393; BIBL. 11 REF.Article

RENDEMENT QUANTIQUE DES THERMOELEMENTS ANISOTROPESSLIPCHENKO VN.1976; UKRAIN. FIZ. ZH.; S.S.S.R.; DA. 1976; VOL. 21; NO 1; PP. 126-131; ABS. ANGL.; BIBL. 3 REF.Article

ANISOTROPIE DU POUVOIR THERMOELECTRIQUE DANS LE CHAMP MAGNETIQUE DES MONOCRISTAUX DE BISMUTHPILAT IM; CHAJKA SV; PIROZHENKO SI et al.1975; FIZ. TVERD. TELA; S.S.S.R.; DA. 1975; VOL. 17; NO 5; PP. 1442-1445; BIBL. 10 REF.Article

ANISOTROPIC THERMOELECTRIC POWER OF TTF-TCNQ.KWAK JF; CHAIKIN PM; RUSSEL AA et al.1975; SOLID STATE COMMUNIC.; G.B.; DA. 1975; VOL. 16; NO 6; PP. 729-732; BIBL. 19 REF.Article

COMPOUND TELLURIDES AND THEIR ALLOYS FOR PELTIER COOLING. A REVIEWYIM WM; ROSI FD.1972; SOLID-STATE ELECTRON.; G.B.; DA. 1972; VOL. 15; NO 10; PP. 1121-1140; H.T. 1; BIBL. 39 REF.Serial Issue

INFLUENCE DE COUCHES INTERMEDIAIRES MACLEES SUR LA TENSION MAGNETOTHERMOELECTRIQUE DES MONOCRISTAUX DE BISMUTHPILAT IM; KRUGLOVA NV; PIROZHENKO SI et al.1979; IZVEST. AKAD. NAUK S.S.S.R., NEORG. MATER.; SUN; DA. 1979; VOL. 15; NO 2; PP. 188-192; BIBL. 7 REF.Article

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