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Voltage amplification of thermopower waves via current crowding at high resistances in self-propagating combustion waves

Authors
Yeo, TaehanHwang, HayoungCho, YonghwanShin, DongjoonChoi, Wonjoon
Issue Date
31-7월-2015
Publisher
IOP PUBLISHING LTD
Keywords
thermopower wave; carbon nanotube; combustion; energy conversion; chemical fuel; current crowding
Citation
NANOTECHNOLOGY, v.26, no.30
Indexed
SCIE
SCOPUS
Journal Title
NANOTECHNOLOGY
Volume
26
Number
30
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/92972
DOI
10.1088/0957-4484/26/30/305402
ISSN
0957-4484
Abstract
Combustion wave propagation in micro/nanostructured materials generates a chemical-thermal-electrical energy conversion, which enables the creation of an unusual source of electrical energy, called a thermopower wave. In this paper, we report that high electrical resistance regimes would significantly amplify the output voltage of thermopower waves, because the current crowding creates a narrow path for charge carrier transport. We show that the structurally defective regions in the hybrid composites of chemical fuels and carbon nanotube (CNT) arrays determine both the resistance levels of the hybrid composites and the corresponding output voltage of thermopower waves. A sudden acceleration of the crowded charges would be induced by the moving reaction front of the combustion wave when the supplied driving force overcomes the potential barrier to cause charge carrier transport over the defective region. This property is investigated experimentally for the locally manipulated defective areas using diverse methods. In this study, thermopower waves in CNT-based hybrid composites are able to control the peak voltages in the range of 10-1000 mV by manipulating the resistance from 10 Omega to 100 k Omega. This controllable voltage generation from thermopower waves may enable applications using the combustion waves in micro/nanostructured materials and better understanding of the underlying physics.
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