Microsphere bouquets of bismuth telluride nanoplates: Room-temperature synthesis and thermoelectric properties

Tie Wang; Rutvik Mehta; Chinnathambi Karthik; P. Gopal Ganesan; Binay Singh; Wei Jiang; N. Ravishankar; Theo Borca-Tasciuc; Ganpati Ramanath

doi:10.1021/jp908727b

Microsphere bouquets of bismuth telluride nanoplates: Room-temperature synthesis and thermoelectric properties

Tie Wang, Rutvik Mehta, Chinnathambi Karthik, P. Gopal Ganesan, Binay Singh, Wei Jiang, N. Ravishankar, Theo Borca-Tasciuc, Ganpati Ramanath

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

We report the synthesis and properties of sphere-shaped microscale aggregates of bismuth telluride nanoplates. We obtain porous microspheres by reducing bismuth chloride and orthotelluric acid with hydrazine in the presence of thioglycolic acidswhich serves as the shape-and size-directing agentsfollowed by roomtemperature agingswhich promotes nanoplate aggregation. Thin film assemblies of the nanoplate microspheres exhibit n-type behavior due to sulfur doping and a Seebeck coefficient higher than that reported for assemblies of chalcogenide nanostructures. Adaptation of our scalable approach to synthesize and hierarchically assemble nanostructures with controlled doping could be attractive for tailoring novel thermoelectric materials for applications in high-efficiency refrigeration and harvesting electricity from heat.

Original language	English
Pages (from-to)	1796-1799
Number of pages	4
Journal	Journal of Physical Chemistry C
Volume	114
Issue number	4
DOIs	https://doi.org/10.1021/jp908727b
State	Published - 4 Feb 2010
Externally published	Yes

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title = "Microsphere bouquets of bismuth telluride nanoplates: Room-temperature synthesis and thermoelectric properties",

abstract = "We report the synthesis and properties of sphere-shaped microscale aggregates of bismuth telluride nanoplates. We obtain porous microspheres by reducing bismuth chloride and orthotelluric acid with hydrazine in the presence of thioglycolic acidswhich serves as the shape-and size-directing agentsfollowed by roomtemperature agingswhich promotes nanoplate aggregation. Thin film assemblies of the nanoplate microspheres exhibit n-type behavior due to sulfur doping and a Seebeck coefficient higher than that reported for assemblies of chalcogenide nanostructures. Adaptation of our scalable approach to synthesize and hierarchically assemble nanostructures with controlled doping could be attractive for tailoring novel thermoelectric materials for applications in high-efficiency refrigeration and harvesting electricity from heat.",

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T2 - Room-temperature synthesis and thermoelectric properties

AU - Wang, Tie

AU - Mehta, Rutvik

AU - Karthik, Chinnathambi

AU - Ganesan, P. Gopal

AU - Singh, Binay

AU - Jiang, Wei

AU - Ravishankar, N.

AU - Borca-Tasciuc, Theo

AU - Ramanath, Ganpati

PY - 2010/2/4

Y1 - 2010/2/4

N2 - We report the synthesis and properties of sphere-shaped microscale aggregates of bismuth telluride nanoplates. We obtain porous microspheres by reducing bismuth chloride and orthotelluric acid with hydrazine in the presence of thioglycolic acidswhich serves as the shape-and size-directing agentsfollowed by roomtemperature agingswhich promotes nanoplate aggregation. Thin film assemblies of the nanoplate microspheres exhibit n-type behavior due to sulfur doping and a Seebeck coefficient higher than that reported for assemblies of chalcogenide nanostructures. Adaptation of our scalable approach to synthesize and hierarchically assemble nanostructures with controlled doping could be attractive for tailoring novel thermoelectric materials for applications in high-efficiency refrigeration and harvesting electricity from heat.

AB - We report the synthesis and properties of sphere-shaped microscale aggregates of bismuth telluride nanoplates. We obtain porous microspheres by reducing bismuth chloride and orthotelluric acid with hydrazine in the presence of thioglycolic acidswhich serves as the shape-and size-directing agentsfollowed by roomtemperature agingswhich promotes nanoplate aggregation. Thin film assemblies of the nanoplate microspheres exhibit n-type behavior due to sulfur doping and a Seebeck coefficient higher than that reported for assemblies of chalcogenide nanostructures. Adaptation of our scalable approach to synthesize and hierarchically assemble nanostructures with controlled doping could be attractive for tailoring novel thermoelectric materials for applications in high-efficiency refrigeration and harvesting electricity from heat.

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Microsphere bouquets of bismuth telluride nanoplates: Room-temperature synthesis and thermoelectric properties

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