Aggregation and photoisomerization of amphiphilic crown-ether styryl dye in monolayers at the interface

The molecules oftrans-isomer of styryl dye1a, containing the benzo-18-crown-6 moiety and the methoxybenzothiazole residue with theN-octadecyl substituent, were shown to form stable, highly ordered monolayers at the water/air interface. Increasing the surface pressure of the monolayer results in the...

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Veröffentlicht in:	Russian chemical bulletin 1996-10, Vol.45 (10), p.2362-2368
Hauptverfasser:	Kryukov, E. Va, Feofanov, A. V., Oleinikov, V. A., Vereshchetin, V. P., Zaitsev, S. Yu, Gromov, S. P., Fedorova, O. A., Maskevich, S. A., Kivach, L. N., Zubov, V. P., Nabiev, I. R., Alfimov, M. V.
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Sprache:	eng
Schlagworte:	Engineering Sciences Micro and nanotechnologies Microelectronics Optics Photonic
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container_end_page	2368
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container_title	Russian chemical bulletin
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creator	Kryukov, E. Va Feofanov, A. V. Oleinikov, V. A. Vereshchetin, V. P. Zaitsev, S. Yu Gromov, S. P. Fedorova, O. A. Maskevich, S. A. Kivach, L. N. Zubov, V. P. Nabiev, I. R. Alfimov, M. V.
description	The molecules oftrans-isomer of styryl dye1a, containing the benzo-18-crown-6 moiety and the methoxybenzothiazole residue with theN-octadecyl substituent, were shown to form stable, highly ordered monolayers at the water/air interface. Increasing the surface pressure of the monolayer results in the formation of the H-aggregated molecules of compound1a. The H-aggregates tend to dissociate to the monomerictrans-form, when the monolayer forms in the Langmuir-Blodgett film (LB film). The light irradiation of the LB films leads to the partially reversibletrans-cis-photoisomerization of compound1a, whose efficiency is much lower than that observed in an acetonitrile solution of1a. The aggregation of cis-1a isomers in the LB film is suggested to hamper the reversecis-trans-isomerization. The aggregation oftrans-1a molecules in the LB films does not occur in air, but, after dipping in an aqueous solution, molecules of the LB film slowly form J-aggregates. A model of the structural organization oftrans-1a molecules in the LB films was proposed.
doi_str_mv	10.1007/BF01435383
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Va ; Feofanov, A. V. ; Oleinikov, V. A. ; Vereshchetin, V. P. ; Zaitsev, S. Yu ; Gromov, S. P. ; Fedorova, O. A. ; Maskevich, S. A. ; Kivach, L. N. ; Zubov, V. P. ; Nabiev, I. R. ; Alfimov, M. V.</creator><creatorcontrib>Kryukov, E. Va ; Feofanov, A. V. ; Oleinikov, V. A. ; Vereshchetin, V. P. ; Zaitsev, S. Yu ; Gromov, S. P. ; Fedorova, O. A. ; Maskevich, S. A. ; Kivach, L. N. ; Zubov, V. P. ; Nabiev, I. R. ; Alfimov, M. V.</creatorcontrib><description>The molecules oftrans-isomer of styryl dye1a, containing the benzo-18-crown-6 moiety and the methoxybenzothiazole residue with theN-octadecyl substituent, were shown to form stable, highly ordered monolayers at the water/air interface. Increasing the surface pressure of the monolayer results in the formation of the H-aggregated molecules of compound1a. The H-aggregates tend to dissociate to the monomerictrans-form, when the monolayer forms in the Langmuir-Blodgett film (LB film). The light irradiation of the LB films leads to the partially reversibletrans-cis-photoisomerization of compound1a, whose efficiency is much lower than that observed in an acetonitrile solution of1a. The aggregation of cis-1a isomers in the LB film is suggested to hamper the reversecis-trans-isomerization. The aggregation oftrans-1a molecules in the LB films does not occur in air, but, after dipping in an aqueous solution, molecules of the LB film slowly form J-aggregates. 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V.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Aggregation and photoisomerization of amphiphilic crown-ether styryl dye in monolayers at the interface</atitle><jtitle>Russian chemical bulletin</jtitle><date>1996-10-01</date><risdate>1996</risdate><volume>45</volume><issue>10</issue><spage>2362</spage><epage>2368</epage><pages>2362-2368</pages><issn>1066-5285</issn><eissn>1573-9171</eissn><abstract>The molecules oftrans-isomer of styryl dye1a, containing the benzo-18-crown-6 moiety and the methoxybenzothiazole residue with theN-octadecyl substituent, were shown to form stable, highly ordered monolayers at the water/air interface. Increasing the surface pressure of the monolayer results in the formation of the H-aggregated molecules of compound1a. The H-aggregates tend to dissociate to the monomerictrans-form, when the monolayer forms in the Langmuir-Blodgett film (LB film). The light irradiation of the LB films leads to the partially reversibletrans-cis-photoisomerization of compound1a, whose efficiency is much lower than that observed in an acetonitrile solution of1a. The aggregation of cis-1a isomers in the LB film is suggested to hamper the reversecis-trans-isomerization. The aggregation oftrans-1a molecules in the LB films does not occur in air, but, after dipping in an aqueous solution, molecules of the LB film slowly form J-aggregates. A model of the structural organization oftrans-1a molecules in the LB films was proposed.</abstract><pub>Springer Verlag</pub><doi>10.1007/BF01435383</doi><tpages>7</tpages></addata></record>
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title	Aggregation and photoisomerization of amphiphilic crown-ether styryl dye in monolayers at the interface
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