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Thermoelectric Behavior of Segregated-Network Polymer Nanocomposites

Cite this: Nano Lett. 2009, 9, 3, 1283
Publication Date (Web):February 23, 2009
https://doi.org/10.1021/nl900263d

Copyright © 2009 American Chemical Society. This publication is available under these Terms of Use.

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Page 4429. The sentence that starts at the bottom of the left column that reads “XD grade CNTs (Carbon Nanotechnologies, Inc.), which are a mixture of metallic and semiconducting single-, double-, and triple-walled CNTs, were incorporated in the matrix.” should be changed into the following new sentence: “Purified HIPCO single-walled carbon nanotubes (Carbon Nanotechnologies, Inc.), with 5 wt % residual Fe impurity, were incorporated into the matrix.”

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  • Corresponding Authors
    • Choongho Yu
    • Jaime C. Grunlan
  • Authors
    • Yeon Seok Kim
    • Dasaroyong Kim

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This article is cited by 13 publications.

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  2. Fahad Saleem Ahmed Khan, N. M. Mubarak, Mohammad Khalid, Mohammad Mansoob Khan, Yie Hua Tan, Rashmi Walvekar, E. C. Abdullah, Rama Rao Karri, Muhammad Ekhlasur Rahman. Comprehensive review on carbon nanotubes embedded in different metal and polymer matrix: fabrications and applications. Critical Reviews in Solid State and Materials Sciences 2022, 47 (6) , 837-864. https://doi.org/10.1080/10408436.2021.1935713
  3. Neha Bisht, Priyesh More, Pawan Kumar Khanna, Reza Abolhassani, Yogendra Kumar Mishra, Morten Madsen. Progress of hybrid nanocomposite materials for thermoelectric applications. Materials Advances 2021, 2 (6) , 1927-1956. https://doi.org/10.1039/D0MA01030H
  4. Lazaros Tzounis. Organic Thermoelectrics and Thermoelectric Generators (TEGs). 2019https://doi.org/10.5772/intechopen.86946
  5. Ahmed gamal El-Shamy. Novel hybrid nanocomposite based on Poly(vinyl alcohol)/ carbon quantum dots/fullerene (PVA/CQDs/C60) for thermoelectric power applications. Composites Part B: Engineering 2019, 174 , 106993. https://doi.org/10.1016/j.compositesb.2019.106993
  6. Dongwook Lee, Jiawei Zhou, Gang Chen, Yang Shao‐Horn. Enhanced Thermoelectric Properties for PEDOT:PSS/Undoped Ge Thin‐Film Bilayered Heterostructures. Advanced Electronic Materials 2019, 5 (3) https://doi.org/10.1002/aelm.201800624
  7. Lazaros Tzounis. Synthesis and Processing of Thermoelectric Nanomaterials, Nanocomposites, and Devices. 2019, 295-336. https://doi.org/10.1016/B978-0-12-815751-0.00009-2
  8. Lazaros Tzounis, Maruti Hegde, Marco Liebscher, Theo Dingemans, Petra Pötschke, Alkiviadis S. Paipetis, Nikolaos E. Zafeiropoulos, Manfred Stamm. All-aromatic SWCNT-Polyetherimide nanocomposites for thermal energy harvesting applications. Composites Science and Technology 2018, 156 , 158-165. https://doi.org/10.1016/j.compscitech.2017.12.030
  9. Hilaal Alam, Seeram Ramakrishna. Nanostructured Thermoelectric Materials: Current Research and Future Challenges. 2017, 507-546. https://doi.org/10.1002/9783527696109.ch22
  10. Mario Culebras, Clara Gómez, Andrés Cantarero. Review on Polymers for Thermoelectric Applications. Materials 2014, 7 (9) , 6701-6732. https://doi.org/10.3390/ma7096701
  11. Kam Y. Lee, David Brown, Satish Kumar. Performance evaluation of silicon nanowire arrays based thermoelectric generators. 2014, 1394-1403. https://doi.org/10.1109/ITHERM.2014.6892443
  12. Aleksandra Lazarenko, Lyudmila Vovchenko, Lyudmila Matzui, Victor Kozachenko, Yuriy Prylutskyy, Peter Scharff, Uwe Ritter. Thermal diffusivity of nanocarbon composites. Polymer Composites 2011, 32 (1) , 14-17. https://doi.org/10.1002/pc.21009
  13. Joseph L. Keddie, Alexander F. Routh. Future Directions and Challenges. 2010, 261-274. https://doi.org/10.1007/978-90-481-2845-7_8
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