Montmorillonite/cationic azobenzene dye(p-(δ-triethylammoniobutoxy)-p'-methyl-azobenzene bromide) intercalation compounds were prepared by the conventional ion exchange method. As compared with that of pure cationic azo-dye, the thermal stability of the intercalated dye was greatly enhanced, and the absorption band corresponding to azobenzene group in intercalated dye shifted towards longer wave length by 38 nm. This could be ascribed to the strong conjugation of cationic azo-dye supramolecular order structure(J cluster) confined in a nanoscale space of montmorillonite interlayer gallery. UV/vis spectra data show that the intercalated azo dye in the montmorillonite interlayer space exhibited reversible trans-to-cis photoisomerization and daylight cis-to-trans back reaction. FTIR indicates the successful intercalation of cationic azo-dye into the montmorillonite interlayer.
参考文献
| [1] | M Ogawa;A Ishikawa .Controlled Microstructures of Amphiphilic Cationic Azobenzene-Montmorillonite Interaction Compounds[J].Journal of Materials Chemistry,1998,8:463-467. |
| [2] | T Ikeda;T Sasaki;K lchimura .Photochemical Switching of Polarization in Ferroelectric Liquid-Crystal Films[J].Nature,1993,361:428-430. |
| [3] | Y Lansac;M A Glasser;N A Clark et al.Photocontrolled Nanophase Segregation in a Liquid-Crystal Solvent[J].Nature,1999,398:54-57. |
| [4] | M Ogawa;K Kuroda .Preparation of Inorganic-Organic Nanocomposites Through Intercalation of Organoammonium Ions into Layered Silicates[J].Bulletin of the Chemical Society of Japan,1997,70:2593-2618. |
| [5] | M Ogawa;M Hama;K Kuroda .Photochromism of Azobenzene in the Hydrophobic Interlayer Spaces of Dialkyldimethylammonium-fluor-tetrasilicic Mica Films[J].Clay Minerals,1999,34:213-220. |
| [6] | Makoto Ogawa .Preparation of a Cationic Azobenzene Derivative-Montmorillonite Intercalation Compound and the Photochemical Behavior[J].Chemistry of Materials,1996(7):1347-1349. |
| [7] | Makoto Ogawa;Kazuyuki Kuroda .Photofunctions of Intercalation Compounds[J].Chemical Reviews,1995(2):399-438. |
| [8] | G Lagaly;K Benecke .Intercalation and Exchange Reactions of Clay Minerals and Non-clay Layer Compounds[J].Colloid and Polymer Science,1991,269:1198-1211. |
| [9] | A O Maged;P Michael;S Peter .Structure and Properties of Alkylammonium Monolayers Self-Assembled on Montmorillonite Platelets[J].Journal of Physical Chemistry B,2004,108:2580-2588. |
| [10] | M Shimomura;S Aiba;N Tajima et al.Crystal Engineering Based on Two-dimensional Molecular Assemblies.Relation Between Chemical Structure and Molecular Orientation in Cast Bilayer Films[J].Langmuir,1995,11:969-976. |
| [11] | M Kasha .Energy Transfer Mechanisms and the Molecular Exciton Model for Molecular Aggregates[J].Radiation Research,1963,20:55-71. |
| [12] | G A Borchardt.Montmorillonite and Other Smectite Minerals[A].Soil Science Society of America,Madison,Wisconsin,1977 |
| [13] | M H W Vander;H Beutelspacher.Atlas of Infrared Spectroscopy of Clay Minerals and Their Admixtures[M].Amsterdam:Elsevier Science,1976 |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%