Page 234 - Photoreactive Organic Thin Films
P. 234
6. PHOTO1SOMER1ZATION IN LANGMUIR-BLODGETT-KUHN STRUCTURES 2 i 3
Ed. Elsevier: Amsterdam (1994), p. 25.
13. Mobius, D., Bucher, H., Kuhn, H., and Sondermann, J. Reversible Anderung der Flache
und des Grenzflachenpotentials monomolekularer Filme eines photochromen Systems. Ber.
Bunsenges. Phys. Ghent. 73, 845 (1969).
14. Palto, S. P., Malthete, J., Germain, C., and Durand, G. On the Nature of Photoinduced
Optical Anisotropy in Diacetylene Langmuir-Blodgett Films. Mo/. Cryst. Liq, Cryst. 282,
451 (1996).
15. Lackmann, H., Engelking, J., and Menzel, H. Photoreorientation of Non-Isomerizing
Diphenyldiacetylene Chromophores in LB Films of a Polyelectrolyte Complex. Mater. Set.
Eng. €8-9,127(1999).
16. Lackmann, H., and Menzel, H. Change in Orientational Distribution of Non-Isomerizing
Diphenyldiacetylene Chromophores in LB-Films. Mo/. Cryst. Liq. Cryst, 345,131 (2000).
17. Brode, W. R., Gould, J. H,, and Wyman, G. M. The Relation Between the Absorption
Spectra and the Chemical Constitution of Dyes XXV. Phototropism and cis-trans
Isomerism in Aromatic Azo Compounds. /. Am. Cbem. Soc. 74, 4641 (1952).
18. Liu, Z. E, Hashimoto, K., and Fujishima, A. A Novel Electrochemical Quantification
Method for trans/cis Interconversion of Azo Compounds in a Solid Monolayer Film.
Chem. Lett. 2177 (1990).
19. Fischer, E. J. The Calculation of Photostationary States in Systems A-B When Only A Is
Known./. Phys. Chem. 71, 3704 (1967).
20. Zimrnermann, G., Chow, L., and Paik, U. The Photchemical Isomerization of Azobenzene.
/. Am. Chem. Soc. 80, 3258 (1958).
21. Morigaki, K., Liu, Z. F, Hashimoto, K., and Fujishima, A. Electrochemical Counting of
Photon Number Using the Assembled Monolayer-film of Azo Compound. Sens. Actuators
B 13,226(1993).
22. McRae, E. G., and Kasha, M. The Molecular Exciton Model. In: Physical Processes in
Radiation Biology. L. Augenstein, R. Mason, and B. Rosenberg, Eds. Academic Press: New
York (1964), p. 23.
23. Kasha, M., Rawls, H. R., and Ashraf El-Bayoumi, M. The Exciton Model in Molecular
Spectroscopy. Pure Appl. Chem. 11, 371 (1965).
24. Czikkely, V., Forsterling, H. D., and Kuhn, H. Extended Dipole Model for Aggregates of
Dye Molecules. Chem. Phys. Lett. 6, 207 (1970).
25. Fukuda K., and Nakahara, H. Electronic Spectra of Oriented Chromophore Systems by
Incorporation of Azobenzene in the Polymer Main Chain and in Monolayer Forming
Amphiphiles./. Colloid Interface Sci. 98, 555 (1984).
26. Shimomura, M., Ando, R., and Kunitake, T. Orientation and Spectral Characteristics of
the Azobenzene Chromophore in the Ammonium Bilayer Assembly. Ber. Bunsenges. Phys.
Chem. 87, 1134(1983).
27. Kunitake, T. Aqueous Bilayer Dispersions, Cast Multilayer Films and Langmuir-Blodgett
Films of Azobenzene Containing Amphiphile. Co//. Surf, 19, 225 (1986).
28. Penner, T. L., Schildkraut, J. S., Ringsdorf, H., and Schuster, A. Oriented Films from
Polymeric Amphiphiles with Mesogenic Groups: Langmuir Blodgett Liquid Crystals?
Macromolecules 24,1041 (1991).
29. Menzel, H., Weichart, B., Schmidt, A., Paul, S., Knoll, W., Stumpe, J., and Fischer, T. SAXS
and UV-Vis Studies on the Structure and Structural Changes in LB Films of Polygiutamates
with Azobenzene Moieties Tethered by Alkyl Spacers of Different Length. Langmuir 10,
1926(1994).
30. Fume, M., and Nozakura, S. Photoreduction of Bisviologen Compounds, Viologen-
(CH 2) n-Viologen, by 2-Propanol. Bull. Chem. Soc. Jpn. 55, 513 (1982).
31. Shimomura, M., Utsugi, K., Horikoshi, J., Okuyama, K., Hatozaki, O., and Okuyama, N.
Two-Dirnensional Ordering of Viologen Polymers Fixed on Charged Surface of Bilayer
Membranes: A Peculiar Odd-Even Effect on Redox Potential and Adsorption Spectrum.
Langmuir 7, 760(1991).
32. Engelking, J., Ulbrich, D., and Menzel, H. Piezocchromic Effect and Orientational Order
in Mono- and LB-Multilayers of Poly(p-phenylene sulfonate)-dioctadecyldimethylammoni-
um Bromide Complexes. Macromolecules 33, 9026, (2000).
33. Sato, T, Ozaki, Y., and Iriyama, K. Molecular Aggregation and Photoisomerization of
