Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications

Yaniv Gelbstein; Jonathan Tunbridge; Richard Dixon; Mike J. Reece; Huanpo Ning; Robert Gilchrist; Richard Summers; Iñigo Agote; Miguel A. Lagos; Kevin Simpson; Cedric Rouaud; Peter Feulner; Sergio Rivera; Ramon Torrecillas; Mark Husband; Julian Crossley; Ivan Robinson

doi:10.1007/s11664-013-2848-9

Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications

Yaniv Gelbstein
, Jonathan Tunbridge
, Richard Dixon
, Mike J. Reece
, Huanpo Ning
, Robert Gilchrist
, Richard Summers
, Iñigo Agote
, Miguel A. Lagos
, Kevin Simpson
, Cedric Rouaud
, Peter Feulner
, Sergio Rivera
, Ramon Torrecillas
, Mark Husband
, Julian Crossley
, Ivan Robinson

Ben-Gurion University of the Negev
Intrinsiq Materials Ltd
Queen Mary University of London
Tata Group India
Halyard (MandI) Ltd. Dorset
European Thermodynamics
Ricardo
Ricardo
Nanoker Research SL
Rolls-Royce
Thermex Ltd.

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135 Citas (Scopus)

Resumen

Cost-effective highly efficient nanostructured n-type Mg₂Si _1-x Sn _x and p-type higher manganese silicide (HMS) compositions were prepared for the development of practical waste heat generators for automotive and marine thermoelectric applications, in the frame of the European Commission (EC)-funded PowerDriver project. The physical, mechanical, and structural properties were fully characterized as part of a database-generation exercise required for the thermoelectric converter design. A combination of high maximal ZT values of ∼0.6 and ∼1.1 for the HMS and Mg₂Si_1-x Sn _x compositions, respectively, and adequate mechanical properties was obtained.

Idioma original	Inglés
Páginas (desde-hasta)	1703-1711
Número de páginas	9
Publicación	Journal of Electronic Materials
Volumen	43
N.º	6
DOI	https://doi.org/10.1007/s11664-013-2848-9
Estado	Publicada - jun 2014

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Gelbstein, Y., Tunbridge, J., Dixon, R., Reece, M. J., Ning, H., Gilchrist, R., Summers, R., Agote, I., Lagos, M. A., Simpson, K., Rouaud, C., Feulner, P., Rivera, S., Torrecillas, R., Husband, M., Crossley, J., & Robinson, I. (2014). Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications. Journal of Electronic Materials, 43(6), 1703-1711. https://doi.org/10.1007/s11664-013-2848-9

@article{b8453cdc264a406dbf4bd1b74ec3bccb,

title = "Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications",

abstract = "Cost-effective highly efficient nanostructured n-type Mg2Si 1-x Sn x and p-type higher manganese silicide (HMS) compositions were prepared for the development of practical waste heat generators for automotive and marine thermoelectric applications, in the frame of the European Commission (EC)-funded PowerDriver project. The physical, mechanical, and structural properties were fully characterized as part of a database-generation exercise required for the thermoelectric converter design. A combination of high maximal ZT values of ∼0.6 and ∼1.1 for the HMS and Mg2Si1-x Sn x compositions, respectively, and adequate mechanical properties was obtained.",

keywords = "silicides, Thermoelectric",

author = "Yaniv Gelbstein and Jonathan Tunbridge and Richard Dixon and Reece, \{Mike J.\} and Huanpo Ning and Robert Gilchrist and Richard Summers and I{\~n}igo Agote and Lagos, \{Miguel A.\} and Kevin Simpson and Cedric Rouaud and Peter Feulner and Sergio Rivera and Ramon Torrecillas and Mark Husband and Julian Crossley and Ivan Robinson",

year = "2014",

month = jun,

doi = "10.1007/s11664-013-2848-9",

language = "English",

volume = "43",

pages = "1703--1711",

journal = "Journal of Electronic Materials",

issn = "0361-5235",

publisher = "Springer New York",

number = "6",

}

Gelbstein, Y, Tunbridge, J, Dixon, R, Reece, MJ, Ning, H, Gilchrist, R, Summers, R, Agote, I , Lagos, MA, Simpson, K, Rouaud, C, Feulner, P, Rivera, S, Torrecillas, R, Husband, M, Crossley, J & Robinson, I 2014, 'Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications', Journal of Electronic Materials, vol. 43, n.º 6, pp. 1703-1711. https://doi.org/10.1007/s11664-013-2848-9

Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications. / Gelbstein, Yaniv; Tunbridge, Jonathan; Dixon, Richard et al.
En: Journal of Electronic Materials, Vol. 43, N.º 6, 06.2014, p. 1703-1711.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications

AU - Gelbstein, Yaniv

AU - Tunbridge, Jonathan

AU - Dixon, Richard

AU - Reece, Mike J.

AU - Ning, Huanpo

AU - Gilchrist, Robert

AU - Summers, Richard

AU - Agote, Iñigo

AU - Lagos, Miguel A.

AU - Simpson, Kevin

AU - Rouaud, Cedric

AU - Feulner, Peter

AU - Rivera, Sergio

AU - Torrecillas, Ramon

AU - Husband, Mark

AU - Crossley, Julian

AU - Robinson, Ivan

PY - 2014/6

Y1 - 2014/6

N2 - Cost-effective highly efficient nanostructured n-type Mg2Si 1-x Sn x and p-type higher manganese silicide (HMS) compositions were prepared for the development of practical waste heat generators for automotive and marine thermoelectric applications, in the frame of the European Commission (EC)-funded PowerDriver project. The physical, mechanical, and structural properties were fully characterized as part of a database-generation exercise required for the thermoelectric converter design. A combination of high maximal ZT values of ∼0.6 and ∼1.1 for the HMS and Mg2Si1-x Sn x compositions, respectively, and adequate mechanical properties was obtained.

AB - Cost-effective highly efficient nanostructured n-type Mg2Si 1-x Sn x and p-type higher manganese silicide (HMS) compositions were prepared for the development of practical waste heat generators for automotive and marine thermoelectric applications, in the frame of the European Commission (EC)-funded PowerDriver project. The physical, mechanical, and structural properties were fully characterized as part of a database-generation exercise required for the thermoelectric converter design. A combination of high maximal ZT values of ∼0.6 and ∼1.1 for the HMS and Mg2Si1-x Sn x compositions, respectively, and adequate mechanical properties was obtained.

KW - silicides

KW - Thermoelectric

UR - https://www.scopus.com/pages/publications/84901923853

U2 - 10.1007/s11664-013-2848-9

DO - 10.1007/s11664-013-2848-9

M3 - Article

AN - SCOPUS:84901923853

SN - 0361-5235

VL - 43

SP - 1703

EP - 1711

JO - Journal of Electronic Materials

JF - Journal of Electronic Materials

IS - 6

ER -

Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications

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