Abstract
New polymer-ceramic nanocomposites are being developed by exploiting the unique intercalation and self-assembling characteristics of layered ceramics. Although quite ubiquitous in nature, self-assembly has only been recently recognized as a viable approach to synthesize nanoscale materials. The observed physical and mechanical properties of the resulting nanocomposites are attributed to the molecular features and the synergism between the individual components.
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G.M. Whitesides, J.P. Mathias, and C.T. Seto, Science, 254 (1991), p. 1312.
V. Mehrotra and E.P. Giannelis, Polymer Based Molecular Composites, ed. D.W Shaefer and J.E. Mark (Pittsburgh, PA: MRS, 1990).
E.P. Giannelis, V. Mehrotra, and M.W. Russell, Better Ceramics Through Chemistry, ed. C.J. Brinker, et al. (Pittsburgh, PA: MRS, 1990).
V. Mehrotra and E.P. Giannelis, Solid Stale Communications, 77 (1991), p. 155.
E.P. Giannelis et al., SynthesiS and Processing of Ceramics: Scientific Issues, ed. W.E. Rhine et al. (Pittsburgh, PA: MRS, 1992).
Materials SynthesiS Utilizing Biological Processes, ed. P.C. Rieke, P.O. Calvert, and M. Alper (Pittsburgh, PA: MRS, 1990).
Intercalation Chemistry, ed. M.S. Whittingham and A.J. Jacobson (New York: Academic Press, 1982).
T.J. Pinnavaia, Science, 220 (1983), p. 365.
K. Yano et al., Polymer Preprint, 65 (1991).
B.S. Hsiao and E.J.H. Chen, Controlled Interfaces in Composite Materials, ed. H. Ishida (New York: Elsevier, 1990), pp. 613–622.
B.J. Factor, T.P. Russell, and M.F. Toney, Phys. Rev. Letters, 66 (1991) p. 1181.
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Giannelis, E.P. A new strategy for synthesizing polymer-ceramic nanocomposites. JOM 44, 28–30 (1992). https://doi.org/10.1007/BF03222789
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DOI: https://doi.org/10.1007/BF03222789