Hostname: page-component-745bb68f8f-grxwn Total loading time: 0 Render date: 2025-01-29T00:46:22.707Z Has data issue: false hasContentIssue false
  • English
  • Français

Control of Colloidal Crystal Growth by External Fields

Published online by Cambridge University Press:  26 February 2011

Elisabeth von Rhein ,
Andreas Bielawny  and
Siegmund Greulich-Weber
Elisabeth von Rhein
Affiliation:
lisa@vrhein.de
Andreas Bielawny
Affiliation:
bielawny@physik.upb.de
Siegmund Greulich-Weber
Affiliation:
greulich-weber@physik.upb.de, University of Paderborn, Physics, Warburger Str. 100, Paderborn, NRW, 33098, Germany, +495251602740
Get access

Abstract

Synthetic opals serve as templates for the most promising three-dimensional photonic crystals, so-called inverted opals. The time consuming growth of artificial opals by self-assembly of monodisperse sub-micron spheres made of silica or organic materials resulting in fcc and hcp colloidal crystals usually yields in limited crystal qualities. The large scale fabrication and thus their application in photonics suffer from the reproducible growth of defect-free extended bulk crystals. In this paper we propose a sonic wave supported fast colloidal crystal growth in a centrifugal field. White noise acoustic irradiation is thought to realize an artificial temperature allowing particle diffusion during crystal growth.

Keywords

colloidself-assemblycrystal growth
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 901: Symposium R – Assembly at the Nanoscale – Toward Functional Nanostructured Materials , 2005 , 0901-Rb10-08
Copyright
Copyright © Materials Research Society 2006

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

References:

1 John, S. Phys. Rev. Lett. 1987, 58, 2486 Google Scholar
2 Yablonovitch, E. Phys. Rev. Lett. 1987, 58, 2059 Google Scholar
3 Astratov, V. N.; Vlasov, Y. A.; Karimov, O. Z.; Kaplyanskii, A. A.; Musikhin, Y. G.; Bert, N. A.; Bogomolov, V. N.; Prokofiev, A. V. Phys. Lett. A, 1996, 222, 349 Google Scholar
4 Yamamoto, N.; Noda, S.; Chutinan, A. Jpn. J. Appl. Phys., 1998, Part 2 37, L1052 Google Scholar
5 Miguez, H.; Meseguer, F.; Lopez, C.; Mifsud, A.; Moya, J. S.; Vazquez, L. Langmuir, 1997, 13, 6009 Google Scholar
6 Miguez, H; Meseguer, F.; Lopez, C; Blanco, A.; Moya, J.; Requena, J.; Mifsud, A.; Fornes, V. Adv. Mat. 1998, 10, 480483 Google Scholar
7 Holgado, M.; Garcia-Santamaria, F.; Blanco, A.; Ibisate, M.; Cintas, A.; Miguez, H.; Serna, C. J.; Molpeceres, C.; Requena, J.; Mifsud, A.; Meseguer, F.; Lopez, C. Langmuir 1999, 15, 4701-4704Google Scholar
8 Stöber, W.; Fink, A.; Bohn, E. Journal of Colloid and Interface Science 1968, 26, 6269 Google Scholar
9 Müller, Manfred, Zentel, Rudolf, Maka, Torsten, Romanov, Sergei G., Torres, Clivia M. Sotomayor; Dye containing polymer beads as Photonic Crystals. Polymer Preprints 000, 41(1), 810 Google Scholar
10 Greulich-Weber, S.; Marsmann, H. From nanosize Silica Spheres to three-dimensional Colloidal Crystals In Ordered Porous Nanostructures and Applications, Springer Series: Nanostructure Science and Technology, Wehrspohn, , Ralf, B. (Ed.) 2005, XII. and references thereinGoogle Scholar
11 Park, S. H.; Gates, B. and Xia, Y., Adv. Mater. 1999, 11, 462466 Google Scholar
12 Aizenberg, J.; Braun, P. V.; Wiltzius, P. Phys. Rev. Lett. 2000, 84, 2997 Google Scholar
13 Sullivan, M;. Zhao, K.; Harrison, Ch.; Austin, R. H.; Megens, M.; Hollingsworth, A.; Russel, W. B.; Cheng, Zhengdong; Mason, Th.; Chaikin, P. M.; J. Phys.: Condens. Matter 2003, 15, S11–S18Google Scholar
14 Richetti, P.; Prost, J.; Barois, P. J. Phys. Lett. 1984, 45, L113743 Google Scholar
15 Yeh, S.-R.; Seul, M.; Shraiman, B. I. Nature 1997, 386, 5759 Google Scholar
16 Trau, M.; Saville, D. A.; Aksay, I. A. Science 1996, 272, 706 Google Scholar
17 Bizdoacaa, E. L.; Spasovaa, M.; Farlea, M.; Hilgendorffb, M.; Carusoc, F. Journal of Magnetism and Magnetic Materials 2002, 240, 4446 Google Scholar
18 Hayward, R. C.; Saville, D. A.; Aksay, I. A. Nature 2000, 404, 5659 Google Scholar
19 Miguez, H; Meseguer, F.; Lopez, C; Blanco, A.; Moya, J.; Requena, J.; Mifsud, A.; Fornes, V. Adv. Mat. 1998, 10, 480483 Google Scholar
20 Pusey, P. N.; van Megen, W. Nature 1986, 320, 340342 Google Scholar
21 Zhu, J.; Li, M.; Rogers, R.; Meyer, W.; Ottewill, R. H. STS-73 Space Shuttle Crew; Russel, W. Z. B.; Chaikin, P. M. Nature 1997, 387, 883 Google Scholar
22 van Blaaderen, A.; Ruel, R.; Wiltzius, P. Nature (London) 1997, 385, 321 Google Scholar