Facile surfactant-free synthesis of p-type snse nanoplates with exceptional thermoelectric power factors

Guang Han; Srinivas R. Popuri; Heather F. Greer; Jan Willem G. Bos; Wuzong Zhou; Andrew R. Knox; Andrea Montecucco; Jonathan Siviter; Elena A. Man; Martin MacAuley; Douglas J. Paul; Wen Guang Li; Manosh C. Paul; Min Gao; Tracy Sweet; Robert Freer; Feridoon Azough; Hasan Baig; Nazmi Sellami; Tapas K. Mallick; Duncan H. Gregory

doi:10.1002/anie.201601420

Facile surfactant-free synthesis of p-type snse nanoplates with exceptional thermoelectric power factors

Guang Han, Srinivas R. Popuri, Heather F. Greer, Jan Willem G. Bos, Wuzong Zhou, Andrew R. Knox, Andrea Montecucco, Jonathan Siviter, Elena A. Man, Martin MacAuley, Douglas J. Paul, Wen Guang Li, Manosh C. Paul, Min Gao, Tracy Sweet, Robert Freer, Feridoon Azough, Hasan Baig, Nazmi Sellami, Tapas K. MallickDuncan H. Gregory

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

78 被引用数 (Scopus)

抄録

A surfactant-free solution methodology, simply using water as a solvent, has been developed for the straightforward synthesis of single-phase orthorhombic SnSe nanoplates in gram quantities. Individual nanoplates are composed of {100} surfaces with {011} edge facets. Hot-pressed nanostructured compacts (E_g≈0.85 eV) exhibit excellent electrical conductivity and thermoelectric power factors (S²σ) at 550 K. S²σ values are 8-fold higher than equivalent materials prepared using citric acid as a structure-directing agent, and electrical properties are comparable to the best-performing, extrinsically doped p-type polycrystalline tin selenides. The method offers an energy-efficient, rapid route to p-type SnSe nanostructures. A surfactant-free aqueous solution methodology has been developed for the straightforward synthesis of SnSe nanoplates in gram quantities. These nanoplates can be hot-pressed into nanostructured compacts with much higher thermoelectric power factors than surfactant-prepared products and comparable values to bulk polycrystalline counterparts.

本文言語	英語
ページ（範囲）	6433-6437
ページ数	5
ジャーナル	Angewandte Chemie - International Edition
巻	55
号	22
DOI	https://doi.org/10.1002/anie.201601420
出版ステータス	出版済み - 5月 23 2016
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

触媒
化学 (全般)

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10.1002/anie.201601420

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Han, G., Popuri, S. R., Greer, H. F., Bos, J. W. G., Zhou, W., Knox, A. R., Montecucco, A., Siviter, J., Man, E. A., MacAuley, M., Paul, D. J., Li, W. G., Paul, M. C., Gao, M., Sweet, T., Freer, R., Azough, F., Baig, H., Sellami, N., ... Gregory, D. H. (2016). Facile surfactant-free synthesis of p-type snse nanoplates with exceptional thermoelectric power factors. Angewandte Chemie - International Edition, 55(22), 6433-6437. https://doi.org/10.1002/anie.201601420

Han, G, Popuri, SR, Greer, HF, Bos, JWG, Zhou, W, Knox, AR, Montecucco, A, Siviter, J, Man, EA, MacAuley, M, Paul, DJ, Li, WG, Paul, MC, Gao, M, Sweet, T, Freer, R, Azough, F, Baig, H, Sellami, N, Mallick, TK & Gregory, DH 2016, 'Facile surfactant-free synthesis of p-type snse nanoplates with exceptional thermoelectric power factors', Angewandte Chemie - International Edition, vol. 55, no. 22, pp. 6433-6437. https://doi.org/10.1002/anie.201601420

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title = "Facile surfactant-free synthesis of p-type snse nanoplates with exceptional thermoelectric power factors",

abstract = "A surfactant-free solution methodology, simply using water as a solvent, has been developed for the straightforward synthesis of single-phase orthorhombic SnSe nanoplates in gram quantities. Individual nanoplates are composed of {100} surfaces with {011} edge facets. Hot-pressed nanostructured compacts (Eg≈0.85 eV) exhibit excellent electrical conductivity and thermoelectric power factors (S2σ) at 550 K. S2σ values are 8-fold higher than equivalent materials prepared using citric acid as a structure-directing agent, and electrical properties are comparable to the best-performing, extrinsically doped p-type polycrystalline tin selenides. The method offers an energy-efficient, rapid route to p-type SnSe nanostructures. A surfactant-free aqueous solution methodology has been developed for the straightforward synthesis of SnSe nanoplates in gram quantities. These nanoplates can be hot-pressed into nanostructured compacts with much higher thermoelectric power factors than surfactant-prepared products and comparable values to bulk polycrystalline counterparts.",

author = "Guang Han and Popuri, {Srinivas R.} and Greer, {Heather F.} and Bos, {Jan Willem G.} and Wuzong Zhou and Knox, {Andrew R.} and Andrea Montecucco and Jonathan Siviter and Man, {Elena A.} and Martin MacAuley and Paul, {Douglas J.} and Li, {Wen Guang} and Paul, {Manosh C.} and Min Gao and Tracy Sweet and Robert Freer and Feridoon Azough and Hasan Baig and Nazmi Sellami and Mallick, {Tapas K.} and Gregory, {Duncan H.}",

note = "Funding Information: This work was financially supported by the EPSRC (EP/K022156/1). The authors thank Peter Chung for assistance with SEM. SRP and JWGB acknowledge the Leverhulme Trust RPG 2012-576. Publisher Copyright: {\textcopyright} 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.",

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doi = "10.1002/anie.201601420",

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AU - Han, Guang

AU - Popuri, Srinivas R.

AU - Greer, Heather F.

AU - Bos, Jan Willem G.

AU - Zhou, Wuzong

AU - Knox, Andrew R.

AU - Montecucco, Andrea

AU - Siviter, Jonathan

AU - Man, Elena A.

AU - MacAuley, Martin

AU - Paul, Douglas J.

AU - Li, Wen Guang

AU - Paul, Manosh C.

AU - Gao, Min

AU - Sweet, Tracy

AU - Freer, Robert

AU - Azough, Feridoon

AU - Baig, Hasan

AU - Sellami, Nazmi

AU - Mallick, Tapas K.

AU - Gregory, Duncan H.

N1 - Funding Information: This work was financially supported by the EPSRC (EP/K022156/1). The authors thank Peter Chung for assistance with SEM. SRP and JWGB acknowledge the Leverhulme Trust RPG 2012-576. Publisher Copyright: © 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

PY - 2016/5/23

Y1 - 2016/5/23

N2 - A surfactant-free solution methodology, simply using water as a solvent, has been developed for the straightforward synthesis of single-phase orthorhombic SnSe nanoplates in gram quantities. Individual nanoplates are composed of {100} surfaces with {011} edge facets. Hot-pressed nanostructured compacts (Eg≈0.85 eV) exhibit excellent electrical conductivity and thermoelectric power factors (S2σ) at 550 K. S2σ values are 8-fold higher than equivalent materials prepared using citric acid as a structure-directing agent, and electrical properties are comparable to the best-performing, extrinsically doped p-type polycrystalline tin selenides. The method offers an energy-efficient, rapid route to p-type SnSe nanostructures. A surfactant-free aqueous solution methodology has been developed for the straightforward synthesis of SnSe nanoplates in gram quantities. These nanoplates can be hot-pressed into nanostructured compacts with much higher thermoelectric power factors than surfactant-prepared products and comparable values to bulk polycrystalline counterparts.

AB - A surfactant-free solution methodology, simply using water as a solvent, has been developed for the straightforward synthesis of single-phase orthorhombic SnSe nanoplates in gram quantities. Individual nanoplates are composed of {100} surfaces with {011} edge facets. Hot-pressed nanostructured compacts (Eg≈0.85 eV) exhibit excellent electrical conductivity and thermoelectric power factors (S2σ) at 550 K. S2σ values are 8-fold higher than equivalent materials prepared using citric acid as a structure-directing agent, and electrical properties are comparable to the best-performing, extrinsically doped p-type polycrystalline tin selenides. The method offers an energy-efficient, rapid route to p-type SnSe nanostructures. A surfactant-free aqueous solution methodology has been developed for the straightforward synthesis of SnSe nanoplates in gram quantities. These nanoplates can be hot-pressed into nanostructured compacts with much higher thermoelectric power factors than surfactant-prepared products and comparable values to bulk polycrystalline counterparts.

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Facile surfactant-free synthesis of p-type snse nanoplates with exceptional thermoelectric power factors

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