Hostname: page-component-78c5997874-dh8gc Total loading time: 0 Render date: 2024-11-04T19:09:44.491Z Has data issue: false hasContentIssue false

Surface Properties of Quasicrystals

Published online by Cambridge University Press:  29 November 2013

Get access

Extract

A variety of opportunities to develop technological applications of quasicrystals is being considered. Several of these are discussed in this issue. A common feature of many proposed applications is that they involve surface or near-surface interactions. Information about the surface structure, composition, and chemistry is prerequisite to understanding the origin of the desirable traits of quasicrystals. For instance, basic issues of surface structure—whether quasicrystals are intrinsically rough or flat, quasicrystalline or not quasicrystalline—impact directly on our understanding of their surface thermodynamic, electronic, and chemical properties.

Type
Quasicrystals
Copyright
Copyright © Materials Research Society 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1.Kortan, A.R., Becker, R.S., Thiel, F.A., and Chen, H.S., Phys. Rev. Lett. 64 (1990) p. 200.CrossRefGoogle Scholar
2.Schaub, T.M., Burgler, D.E., Guntherodt, H-J., and Suck, J.B., Phys. Rev. Lett. 73 (1994) p. 1255.CrossRefGoogle Scholar
3.Ebert, P., Feuerbacher, M., Tamura, N., Wollgarten, M., and Urban, K., Phys. Rev. Lett. 77 (1996) p. 3827.CrossRefGoogle Scholar
4.Janot, C. and de Boissieu, M., Phys. Rev. Lett. 72 (1994) p. 1674.CrossRefGoogle Scholar
5.Janot, C., Phys. Rev. B 53 (1996) p. 181.CrossRefGoogle Scholar
6.Mikulla, R., Krul, F., Gumbsch, P., and Trebin, H-R., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 200.Google Scholar
7.Shen, Z., Kramer, M.J., Goldman, A.I., Lograsso, T., Delaney, D., Jenks, C.J., and Thiel, P.A. (1997).Google Scholar
8.Gierer, M., Van Hove, M.A., Goldman, A.I., Shen, Z., Chang, S-L., Jenks, C.J., Zhang, C-M., and Thiel, P.A., Phys. Rev. Lett. 78 (1997) p. 467.CrossRefGoogle Scholar
9.Naumovic, D., Aebi, P., Schlapbach, L., and Beeli, C., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 86.Google Scholar
10.Chang, S-L., Anderegg, J.W., and Thiel, P.A., J. Non-Cryst. Solids 195 (1996) p. 95.CrossRefGoogle Scholar
11.Rouxel, D., Gavatz, M., Pigeat, P., Weber, B., and Plaindoux, P., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 173.Google Scholar
12.Jenks, C.J., Pinhero, P.J., Bloomer, T.E., Anderegg, J.W., and Thiel, P.A., in Proc. ICQ6, edited by Takeuchi, S. and Fujiwara, T. (World Scientific, Singapore, in press).Google Scholar
13.Jenks, C.J., Pinhero, P.J., Chang, S-L., Anderegg, J.W., Besser, M.F., Sordelet, D.J., and Thiel, P.A., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 157.Google Scholar
14.Sordelet, D.J., Gunderman, A., Besser, M.F., and Akinc, A.B., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 296.Google Scholar
15.Machizaud, F., Vigneron, B., Dubois, J.M., and Dufour, J.P. (unpublished).Google Scholar
16.Rivier, N., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 188.Google Scholar
17.Dubois, J.M., Plaindoux, P., Belin-Ferre, E., Tamura, N., and Sordelet, D.J., in Proc. ICQ6, edited by Takeuchi, S. and Fujiwara, T. (World Scientific, Singapore) in press.Google Scholar
18.Kang, S-S. and Dubois, J.M., J. Mater. Res. 10 (5) (1995) p. 1071.CrossRefGoogle Scholar
19.Wehner, B.I. and Koster, U., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 152.Google Scholar
20.Bose, A., in Wettability, vol. 49, edited by Berg, J.C. (Marcel Dekker, Inc., New York, 1993) p. 149.Google Scholar
21.Belin, E. and Mayou, D., Phys. Scripta T49 (1993) p. 356.CrossRefGoogle Scholar
22.Belin, E., Dankhazi, Z., and Sadoc, A., Mater. Sci. Eng. A 182 (1994) p. 717.CrossRefGoogle Scholar
23.Belin-Ferre, E., Fournee, V., and Dubois, J.M., in New Horizons in Quasicrystals: Research and Applications, edited by Goldman, A.I., Sordelet, D.J., Thiel, P.A., and Dubois, J.M. (World Scientific, Singapore, 1997) p. 9.Google Scholar
24.Schaub, T.M., Burgler, D.E., Guntherodt, H-J., Suck, J.B., and Audier, M., Appl. Phys. A 61 (1995) p. 491.CrossRefGoogle Scholar
25.Shen, Z., Pinhero, P.J., Lograsso, T.A., Delaney, D.W., Jenks, C.J., and Thiel, P.A., Surf. Sci. Lett, in press.Google Scholar