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Thermal Conductivity Measurements in Atomically Thin Materials and Devices

  • Book
  • © 2020

Overview

Authors:
  1. T. Serkan Kasirga

    1. UNAM-Institute of Materials Science and Nanotechnology, Bilkent University, Ankara, Turkey

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  • Highlights the use of materials with atomically thin layers in electronics and optoelectronic devices
  • Discusses the thermal performance of materials such as graphene and transition metal dichalcogenides
  • Introduces readers to novel techniques for thermal measurement based on the photothermal effects

Part of the book series: SpringerBriefs in Applied Sciences and Technology (BRIEFSAPPLSCIENCES)

Part of the book sub series: Nanoscience and Nanotechnology (BRIEFSNANOSCIENCE)

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Table of contents (3 chapters)

  1. Front Matter

    Pages i-xv
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  2. Atomically Thin Materials

    • T. Serkan Kasirga
    Pages 1-10

  3. Thermal Conductivity Measurements in 2D Materials

    • T. Serkan Kasirga
    Pages 11-27

  4. Thermal Conductivity Measurements via the Bolometric Effect

    • T. Serkan Kasirga
    Pages 29-50
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Keywords

About this book

This book assesses the thermal feasibility of using materials with atomically thin layers such as graphene and the transition metal dichalcogenides family in electronics and optoelectronics applications. The focus is on thermal conductivity measurement techniques currently available for the investigation of thermal performance at the material and device level. In addition to providing detailed information on the available techniques, the book introduces readers to novel techniques based on photothermal effects. 

Authors and Affiliations

  • UNAM-Institute of Materials Science and Nanotechnology, Bilkent University, Ankara, Turkey

    T. Serkan Kasirga

About the author

Dr. Kasırga completed his Ph.D. in December 2013 and right after moved to Bilkent University as an Assistant Prof. Since 2015 he has been serving as associate director of the National Nanotechnology Research Center at Bilkent University. His research interests are in the area of strongly correlated systems and 2D materials.

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