Aggregation of Stilbene Derivatized Fatty Acids and Phospholipids in Monolayers and Vesicles<sup>1</sup>

Song, Xuedong; Geiger, Cristina; Farahat, Mohammad S.; Perlstein, and Jerry; Whitten, David G.

doi:10.1021/ja972292i

Cited by 45 publications

(81 citation statements)

References 51 publications

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“…The authors who studied amphiphiles 11 and 12 suggested that the photoresponse of the azobenzene amphiphiles in the vesicles are strongly dependent on their aggregated state. [17,18] As counterparts of the self-assembly of azobenzene amphiphiles in aqueous conditions, self-assemblies of the azobenzenes 13…”

Section: Photocontrollable Self-assemblies Based On Strategy 2: Photomentioning

confidence: 99%

“…Thus, azobenzene-appended melamine 15 was prepared and its co-aggregation with 5,5'-diethylbarbituric acid (17) in CDCl 3 was investigated (Scheme 10). [22] For 15, steric crowding of the N-substituents increases with trans!cis isomerization in the aggregated state (Scheme 11).…”

Section: Photocontrollable Self-assemblies Based On Strategy 3: Photomentioning

confidence: 99%

“…This observation demonstrates that the steric crowding of the trans-azobenzene moiety in 15 is not enough to retain Scheme 7. Molecular structures of the azobenzene-containing amphiphilic molecules 8 by Kunitake, [14] 9 by Sakai, [15] 10 by Yianni, [16] 11 by Whitten, [17] and 12 by Engberts. [18] Scheme 8.…”

Section: Photocontrollable Self-assemblies Based On Strategy 3: Photomentioning

confidence: 99%

See 2 more Smart Citations

Photocontrollable Self‐Assembly

Yagai

Karatsu

Kitamura

2005

Chemistry A European J

213

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The incorporation of photoswitching molecules into molecular building blocks creates the possibility of photoresponsive self-assemblies in which the self-assembled architecture or self-assembling process can be controlled by external light stimulus. Among the photoswitching molecules, azobenzene has been used most widely by virtue of the large photoinduced changes in its molecular geometry and physical properties. This article reviews how azobenzene can be effectively used to construct the self-assemblies in which supramolecular structure and formation/dissociation can be altered by light.

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Section: Photocontrollable Self-assemblies Based On Strategy 2: Photomentioning

confidence: 99%

Section: Photocontrollable Self-assemblies Based On Strategy 3: Photomentioning

confidence: 99%

Section: Photocontrollable Self-assemblies Based On Strategy 3: Photomentioning

confidence: 99%

See 1 more Smart Citation

Photocontrollable Self‐Assembly

Yagai

Karatsu

Kitamura

2005

Chemistry A European J

213

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“…As shown in Figure 4, the PUC‐S1 film exhibits three characteristic absorption bands at 316, 328, and 338 nm, with the maximum peak occurring at 316 nm. Related to the maximum at 334 nm from the polymer solution, the redshift observed for the maximum at 338 nm in the UV spectrum of the polymer film could be tentatively associated with the predominance of stilbene aggregates, the size, structure, and properties of which were shown in other stilbene amphiphiles 28, 29. Subsequent irradiation of the polymer film indicated that the absorption spectra had curve profiles similar to those in solution, and the absorption bands decreased monotonously in favor of the formation of the cis species.…”

Section: Resultsmentioning

confidence: 80%

Synthesis and optical properties of new polyurethane cationomers with anchored stilbene chromophores

Buruiana¹,

Buruiană²,

Strat³

et al. 2002

J. Polym. Sci. A Polym. Chem.

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An ionic diol bearing a one-sided urethane-stilbene group located on the ammonium quaternary structure was prepared and proposed as an intermediate for polyurethane ionomer synthesis. Polyurethane cationomers with stilbene ionic groups based on poly(tetramethylene oxide) diols, 4,4Ј-diphenylmethane diisocyanate and the aforementioned ionic diol, were synthesized and characterized. Some aspects of the trans-cis photoisomerism and fluorescent emission of the stilbene chromophore in polyurethane cationomers were studied comparatively with the urethane-stilbene diol. The stilbene polycations absorbed at A ϭ 316 nm and emitted violet-blue light with an emission maxima at F ϭ 444 nm (dimethylformamide solution) and F ϭ 465 nm (film). These polymers are known for their elastomeric properties and are assumed to be of great interest for some future applications.

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“…It can be seen that there is a blue shift (from 298 to 284 nm for Y21 and from 292 to 283 nm for Y34) in LB films deposited at high surface pressure compared with the films deposited at low surface pressure. Both theoretical [32] and experimental [33] reports in the literature suggest that small aggregates of from two to six p-conjugated molecules can alter the absorption and fluorescence spectra of the isolated chromophore, thus leading to blue-shifted absorption and red-shifted emission. In our case, the blue-shifted spectra for the film deposited at high surface pressure compared with the film deposited at low surface pressure are attributed to the formation of H aggregates, in which the long axes of the molecules are aligned in a general face-to-face arrangement.…”

Section: Transferred Films On a Solid Supportmentioning

confidence: 99%

Interfacial Organization of Y‐Shaped Rod–Coil Molecules Packed into Cylindrical Nanoarchitectures

2008

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The behavior at the air/water interface and the structures of Langmuir-Blodgett monolayers at different surface pressures of rod-coil molecules, which consist of a Y-shaped rigid aromatic segment containing peripheral tetradecyloxy groups and a flexible poly(ethylene oxide) (PEO) chain with 17, 21, 34, or 45 repeating ethylene oxide units (Y17, Y21, Y34, and Y45), were investigated. For the Y21 and Y34 molecules, AFM images revealed two kinds of cylindrical nanoarchitectures formed upon compression. The nanostructured films were further investigated by UV/Vis and FTIR spectroscopy. The formation of the cylindrical nanoarchitectures was due to different tilting angles offered by the mismatch of the cross-sectional areas of the PEO chain and the benzene ring with attached alkyl chains, and the different PEO contents of the molecules. The multiple pi-pi stacking and hydrophobic interactions provide exceptional stability of the nanostructures and allow them to be preserved in the course of flipping. For the shortest PEO chain of the Y17 molecule, spontaneous aggregation occurred. The Y45 molecule revealed the formation of 2D circular domains caused by entanglement of the longest PEO chains and coiling at the air/water interface. In addition, an interesting vortical morphology was obtained for the Y21 molecule upon deposition of the film onto a mica substrate, which indicates that the substrate chemistry also has an effect on the morphologies during the film-transfer process.

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Aggregation of Stilbene Derivatized Fatty Acids and Phospholipids in Monolayers and Vesicles¹

Cited by 45 publications

References 51 publications

Photocontrollable Self‐Assembly

Photocontrollable Self‐Assembly

Synthesis and optical properties of new polyurethane cationomers with anchored stilbene chromophores

Interfacial Organization of Y‐Shaped Rod–Coil Molecules Packed into Cylindrical Nanoarchitectures

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Aggregation of Stilbene Derivatized Fatty Acids and Phospholipids in Monolayers and Vesicles1

Cited by 45 publications

References 51 publications

Photocontrollable Self‐Assembly

Photocontrollable Self‐Assembly

Synthesis and optical properties of new polyurethane cationomers with anchored stilbene chromophores

Interfacial Organization of Y‐Shaped Rod–Coil Molecules Packed into Cylindrical Nanoarchitectures

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Aggregation of Stilbene Derivatized Fatty Acids and Phospholipids in Monolayers and Vesicles¹