2019-Sustainable Industrial Processing Summit
SIPS2019 Volume 9: Tressaud Intl. Symp. / Solid State Chemistry for Applications and Sustainable Development
| Editors: | F. Kongoli, M.A. Alario Franco, J. Etourneau, S. Kalogirou, F.D.S. Marquis, R. Martins, K. Poeppelmeier, B. Raveau, Y. Shimakawa, M. Takano |
| Publisher: | Flogen Star OUTREACH |
| Publication Year: | 2019 |
| Pages: | 130 pages |
| ISBN: | 978-1-989820-08-7 |
| ISSN: | 2291-1227 (Metals and Materials Processing in a Clean Environment Series) |
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Carbon Nanotubes and Graphene Hybrid Materials Systems for Multifunctional Applications
Fernand D. S. Marquis1;1SAN DIEGO STATE UNIVERSITY, San Diego, United States;
Type of Paper: Plenary
Id Paper: 335
Topic: 52
Abstract:
Carbon nanotubes and graphene are almost perfect molecules with truly amazing combinations of thermal, electrical and structural properties. In order to achieve their full potential, they need to be fully integrated hybrid materials in all sorts of matrices. Full integration requires their development beyond conventional composites so that the level of the non-nanomaterial is designed to integrate fully with the amount of nanotubes and graphene. Here the nanomaterials are part of the matrix rather than a differing component, as in the case of conventional composites. In order to advance the development of multifunctional materials and to integrate nanotubes and graphene, this research is focused on the simultaneous control of the nano-architecture, structural properties, thermal and electrical conductivity of fully integrated hybrid materials. These hybrid material systems are designed to surpass the limits of the rules of mixtures in conventional composite design. The goals are to implement multifunctional designs to fully mimic the properties of carbon nanotubes and grapheme on larger scales for enhanced thermal and electrical management in addition to the control of other properties such as strength, toughness energy and power. These new approaches involve exfoliation, functionalization, dispersion, stabilization, alignment, polymerization, reaction bonding and coating in order to achieve full integration. Typical examples of structural applications of polymeric and ceramic matrices and applications in energy systems such as capacitors and batteries as well as other material systems are presented and discussed.
Keywords:
Advanced Characterization Techniques and Applications; Advances in the synthesis routes; Design of materials for sustainable energy production;References:
1. Marquis, F.D.S. “Carbon Nanotube Nanostructured Hybrid Materials Systems for Renewable Energy Applications” JOM, Vol 63, 1 (2011) 482. Marquis, F.D.S. and L.P.F. Chibante “Improving the Heat Transfer of Nanofluids and Nanolubricants with Carbon Nanotubes” JOM, 12 (2005) 32-44.
3. Functional Composites of Carbon Nanotubes & Applications”, Lee, K-P, Gopalan, A.I. and Marquis, F.D.S. Marquis, Research Signpost (2009), ISBN 978-81-7895-413-4.
4. Marquis, F.D.S. “The Nanotechnology of Carbon Nanotube Nanofluids” in “Functional Composites of Carbon Nanotubes and Applications”, Lee, K-P, Gopalan, A.I. and Marquis, F.D.S. Marquis, ISBN 978-81-7895-413-4, (2009).