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Ultralight three-dimensional, carbon-based nanocomposites for thermal energy storage

Ola, Oluwafunmilola; Chen, Yu; Niu, Qijian; Xia, Yongde; Mallick, Tapas; Zhu, Yanqiu

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Authors

Yu Chen

Qijian Niu

Yongde Xia

Tapas Mallick

Yanqiu Zhu



Abstract

Polymer based nanocomposites consisting of elastic three-dimensional (3D) carbon foam (CF), paraffin wax and graphene nanoplatelets (GNPs) have been created and evaluated for thermal energy storage. The ultralight, highly porous (∼98.6% porosity), and flexible CFs with densities of 2.84–5.26 mg/cm3 have been used as the backbone skeleton to accommodate phase change wax and nanoscale thermal conductive enhancer, GNP. Low level of defects and the ordered sp2 configuration allow the resulting CFs to exhibit excellent cyclic compressive behavior at strains up to 95%, while retaining part of their elastic properties even after 100 cycles of testing. By dispersing the highly conductive GNP nanofillers in paraffin wax and infiltrating them into the flexible CFs, the resultant nanocomposites were observed to possess enhanced overall thermal conductivity up to 0.76 W/(m K), representing an impressive improvement of 226%, which is highly desirable for thermal engineering.

Citation

Ola, O., Chen, Y., Niu, Q., Xia, Y., Mallick, T., & Zhu, Y. (2020). Ultralight three-dimensional, carbon-based nanocomposites for thermal energy storage. Journal of Materials Science and Technology, 36, 70-78. https://doi.org/10.1016/j.jmst.2019.06.014

Journal Article Type Article
Acceptance Date Jun 15, 2019
Online Publication Date Aug 9, 2019
Publication Date Jan 1, 2020
Deposit Date May 4, 2020
Publicly Available Date May 5, 2020
Journal Journal of Materials Science and Technology
Print ISSN 1005-0302
Electronic ISSN 1941-1162
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 36
Pages 70-78
DOI https://doi.org/10.1016/j.jmst.2019.06.014
Keywords Mechanical Engineering; Materials Chemistry; Mechanics of Materials; Polymers and Plastics; Metals and Alloys; Ceramics and Composites
Public URL https://nottingham-repository.worktribe.com/output/4381104
Publisher URL https://www.sciencedirect.com/science/article/pii/S1005030219302737?via%3Dihub
Additional Information This article is maintained by: Elsevier; Article Title: Ultralight three-dimensional, carbon-based nanocomposites for thermal energy storage; Journal Title: Journal of Materials Science & Technology; CrossRef DOI link to publisher maintained version: https://doi.org/10.1016/j.jmst.2019.06.014; Content Type: article; Copyright:

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