Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method

10.1039/c6tc04594d

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Main Authors: Ye T., Wang X., Li X., Yan A.Q., Ramakrishna S., Xu J.
Other Authors: MECHANICAL ENGINEERING
Format: Article
Published: 2020
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Online Access:https://scholarbank.nus.edu.sg/handle/10635/173969
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1739692024-04-04T02:33:02Z Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method Ye T. Wang X. Li X. Yan A.Q. Ramakrishna S. Xu J. MECHANICAL ENGINEERING Electromagnetic wave absorption Energy gap Inverse problems Light absorption Optical properties Perovskite Seebeck coefficient Single crystals Thermoelectricity Absorption and photoluminescence Electrical conductivity Low thermal conductivity Organic-inorganic hybrid Structural phase transition Thermoelectric application Thermoelectric characteristics Thermoelectric properties Thermal conductivity 10.1039/c6tc04594d Journal of Materials Chemistry C 5 5 1255-1260 2020-09-02T06:43:40Z 2020-09-02T06:43:40Z 2017 Article Ye T., Wang X., Li X., Yan A.Q., Ramakrishna S., Xu J. (2017). Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method. Journal of Materials Chemistry C 5 (5) : 1255-1260. ScholarBank@NUS Repository. https://doi.org/10.1039/c6tc04594d 20507534 https://scholarbank.nus.edu.sg/handle/10635/173969 Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Electromagnetic wave absorption
Energy gap
Inverse problems
Light absorption
Optical properties
Perovskite
Seebeck coefficient
Single crystals
Thermoelectricity
Absorption and photoluminescence
Electrical conductivity
Low thermal conductivity
Organic-inorganic hybrid
Structural phase transition
Thermoelectric application
Thermoelectric characteristics
Thermoelectric properties
Thermal conductivity
spellingShingle Electromagnetic wave absorption
Energy gap
Inverse problems
Light absorption
Optical properties
Perovskite
Seebeck coefficient
Single crystals
Thermoelectricity
Absorption and photoluminescence
Electrical conductivity
Low thermal conductivity
Organic-inorganic hybrid
Structural phase transition
Thermoelectric application
Thermoelectric characteristics
Thermoelectric properties
Thermal conductivity
Ye T.
Wang X.
Li X.
Yan A.Q.
Ramakrishna S.
Xu J.
Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
description 10.1039/c6tc04594d
author2 MECHANICAL ENGINEERING
author_facet MECHANICAL ENGINEERING
Ye T.
Wang X.
Li X.
Yan A.Q.
Ramakrishna S.
Xu J.
format Article
author Ye T.
Wang X.
Li X.
Yan A.Q.
Ramakrishna S.
Xu J.
author_sort Ye T.
title Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
title_short Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
title_full Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
title_fullStr Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
title_full_unstemmed Ultra-high Seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
title_sort ultra-high seebeck coefficient and low thermal conductivity of a centimeter-sized perovskite single crystal acquired by a modified fast growth method
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/173969
_version_ 1800914203427471360