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Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy

Research output: Contribution to conference - Without ISBN/ISSN Posterpeer-review

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Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy. / Gonzalez Munoz, Sergio; Agarwal, Khushboo; Castanon, Eli et al.
2022. Poster session presented at FST Science Week 2022.

Research output: Contribution to conference - Without ISBN/ISSN Posterpeer-review

Harvard

Gonzalez Munoz, S, Agarwal, K, Castanon, E, Kudrynskyi, Z, Kovalyuk, Z, Spiece, J, Kazakova, O, Patane, A & Kolosov, O 2022, 'Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy', FST Science Week 2022, 28/03/22 - 1/04/22.

APA

Gonzalez Munoz, S., Agarwal, K., Castanon, E., Kudrynskyi, Z., Kovalyuk, Z., Spiece, J., Kazakova, O., Patane, A., & Kolosov, O. (2022). Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy. Poster session presented at FST Science Week 2022.

Vancouver

Gonzalez Munoz S, Agarwal K, Castanon E, Kudrynskyi Z, Kovalyuk Z, Spiece J et al.. Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy. 2022. Poster session presented at FST Science Week 2022.

Author

Gonzalez Munoz, Sergio ; Agarwal, Khushboo ; Castanon, Eli et al. / Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy. Poster session presented at FST Science Week 2022.

Bibtex

@conference{0c35084187f4472bb3b3f7fe16703780,
title = "Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy",
abstract = "Thermal transport is one of the key factors in defining the performance of thermoelectric (TE) materials, given that most of these cannot combine high power factor with low thermal conductivity. Nevertheless, thermal transport in van der Waals (vdW) materials and their heterostructures could be tweaked, leaving an open platform for new TE applications. In particular, indium selenide (InSe) shows high TE potential due to advantageous electrical and thermal properties, increasing the TE efficiency. Here we quantify the thermal transport in γ-InSe nanolayers via x-section scanning thermal microscopy (xSThM), providing a key insight to its in-plane and cross-plane thermal conductivities as well as interfacial thermal resistance to the substrate.",
author = "{Gonzalez Munoz}, Sergio and Khushboo Agarwal and Eli Castanon and Zakhar Kudrynskyi and Zakhar Kovalyuk and Jean Spiece and Olga Kazakova and Amalia Patane and Oleg Kolosov",
year = "2022",
language = "English",
note = "FST Science Week 2022 ; Conference date: 28-03-2022 Through 01-04-2022",
url = "https://www.lancaster.ac.uk/sci-tech/research/science-week/",

}

RIS

TY - CONF

T1 - Quantitative Measurements of Anisotropic Thermal Transport in Gamma Indium Selenide via Cross-Sectional Scanning Thermal Microscopy

AU - Gonzalez Munoz, Sergio

AU - Agarwal, Khushboo

AU - Castanon, Eli

AU - Kudrynskyi, Zakhar

AU - Kovalyuk, Zakhar

AU - Spiece, Jean

AU - Kazakova, Olga

AU - Patane, Amalia

AU - Kolosov, Oleg

PY - 2022

Y1 - 2022

N2 - Thermal transport is one of the key factors in defining the performance of thermoelectric (TE) materials, given that most of these cannot combine high power factor with low thermal conductivity. Nevertheless, thermal transport in van der Waals (vdW) materials and their heterostructures could be tweaked, leaving an open platform for new TE applications. In particular, indium selenide (InSe) shows high TE potential due to advantageous electrical and thermal properties, increasing the TE efficiency. Here we quantify the thermal transport in γ-InSe nanolayers via x-section scanning thermal microscopy (xSThM), providing a key insight to its in-plane and cross-plane thermal conductivities as well as interfacial thermal resistance to the substrate.

AB - Thermal transport is one of the key factors in defining the performance of thermoelectric (TE) materials, given that most of these cannot combine high power factor with low thermal conductivity. Nevertheless, thermal transport in van der Waals (vdW) materials and their heterostructures could be tweaked, leaving an open platform for new TE applications. In particular, indium selenide (InSe) shows high TE potential due to advantageous electrical and thermal properties, increasing the TE efficiency. Here we quantify the thermal transport in γ-InSe nanolayers via x-section scanning thermal microscopy (xSThM), providing a key insight to its in-plane and cross-plane thermal conductivities as well as interfacial thermal resistance to the substrate.

M3 - Poster

T2 - FST Science Week 2022

Y2 - 28 March 2022 through 1 April 2022

ER -