Importance of Schottky barriers for wide-bandgap thermoelectric devices

The development of thermoelectric devices faces not only the challenge of optimizing the Seebeck coefficient, the electrical and thermal conductivity of the active material, but also further bottlenecks when going from the thermoelectric material to an actual device, e.g., the dopant diffusion at th...

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Main Authors:	Wais, M., Held, K., Battiato, Marco
Other Authors:	School of Physical and Mathematical Sciences
Format:	Article
Language:	English
Published:	2019
Subjects:	DRNTU::Science::Physics Seebeck Effect Thermopower
Online Access:	https://hdl.handle.net/10356/102385 http://hdl.handle.net/10220/48589
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Institution:	Nanyang Technological University
Language:	English

id	sg-ntu-dr.10356-102385
record_format	dspace
spelling	sg-ntu-dr.10356-1023852023-02-28T19:42:30Z Importance of Schottky barriers for wide-bandgap thermoelectric devices Wais, M. Held, K. Battiato, Marco School of Physical and Mathematical Sciences DRNTU::Science::Physics Seebeck Effect Thermopower The development of thermoelectric devices faces not only the challenge of optimizing the Seebeck coefficient, the electrical and thermal conductivity of the active material, but also further bottlenecks when going from the thermoelectric material to an actual device, e.g., the dopant diffusion at the hot contact. We show that for large bandgap thermoelectrics another aspect can dramatically reduce the efficiency of the device: the formation of Schottky barriers. Understanding the effect, it can then be fixed rather cheaply by a two-metal contact solution. Published version 2019-06-07T01:27:09Z 2019-12-06T20:54:10Z 2019-06-07T01:27:09Z 2019-12-06T20:54:10Z 2018 Journal Article Wais, M., Held, K., & Battiato, M. (2018). Importance of Schottky barriers for wide-bandgap thermoelectric devices. Physical Review Materials, 2(4), 045402-. doi:10.1103/PhysRevMaterials.2.045402 https://hdl.handle.net/10356/102385 http://hdl.handle.net/10220/48589 10.1103/PhysRevMaterials.2.045402 en Physical Review Materials © 2018 American Physical Society. All rights reserved. This paper was published in Physical Review Materials and is made available with permission of American Physical Society. 6 p. application/pdf
institution	Nanyang Technological University
building	NTU Library
continent	Asia
country	Singapore Singapore
content_provider	NTU Library
collection	DR-NTU
language	English
topic	DRNTU::Science::Physics Seebeck Effect Thermopower
spellingShingle	DRNTU::Science::Physics Seebeck Effect Thermopower Wais, M. Held, K. Battiato, Marco Importance of Schottky barriers for wide-bandgap thermoelectric devices
description	The development of thermoelectric devices faces not only the challenge of optimizing the Seebeck coefficient, the electrical and thermal conductivity of the active material, but also further bottlenecks when going from the thermoelectric material to an actual device, e.g., the dopant diffusion at the hot contact. We show that for large bandgap thermoelectrics another aspect can dramatically reduce the efficiency of the device: the formation of Schottky barriers. Understanding the effect, it can then be fixed rather cheaply by a two-metal contact solution.
author2	School of Physical and Mathematical Sciences
author_facet	School of Physical and Mathematical Sciences Wais, M. Held, K. Battiato, Marco
format	Article
author	Wais, M. Held, K. Battiato, Marco
author_sort	Wais, M.
title	Importance of Schottky barriers for wide-bandgap thermoelectric devices
title_short	Importance of Schottky barriers for wide-bandgap thermoelectric devices
title_full	Importance of Schottky barriers for wide-bandgap thermoelectric devices
title_fullStr	Importance of Schottky barriers for wide-bandgap thermoelectric devices
title_full_unstemmed	Importance of Schottky barriers for wide-bandgap thermoelectric devices
title_sort	importance of schottky barriers for wide-bandgap thermoelectric devices
publishDate	2019
url	https://hdl.handle.net/10356/102385 http://hdl.handle.net/10220/48589
_version_	1759857035194662912

Importance of Schottky barriers for wide-bandgap thermoelectric devices

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