Self-assembly of semifluorinated dendrons attached to electron-donor groups mediates their π-stacking via a helical pyramidal column

Virgil Percec; Martin Glodde; Mihai Peterca; Almut Rapp; Ingo Schnell; Hans W. Spiess; Tushar K. Bera; Yoshiko Miura; Venkatachalapathy S.K. Balagurusamy; Emad Aqad; Paul A. Heiney

doi:10.1002/chem.200501195

Self-assembly of semifluorinated dendrons attached to electron-donor groups mediates their π-stacking via a helical pyramidal column

Virgil Percec, Martin Glodde, Mihai Peterca, Almut Rapp, Ingo Schnell, Hans W. Spiess, Tushar K. Bera, Yoshiko Miura, Venkatachalapathy S.K. Balagurusamy, Emad Aqad, Paul A. Heiney

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Abstract

Semifluorinated first-generation self-assembling dendrons attached via a flexible spacer to electron-donor molecules induce π-stacking of the donors in the center of a supramolecular helical pyramidal column. These helical pyramidal columns self-organize in various columnar liquid crystal phases that mediate self-processing of large single crystal liquid crystal do mains of columns and self-repair their intracolumnar structural defects. In addition, all supramolecular columns exhibit a columnar phase at lower temperatures that maintains the helical pyramidal columnar supramolecular structure and displays higher intracolumnar order than that in the liquid crystals phases. The results described here demonstrate the universality of this concept, the power of the fluorous phase or the fluorophobic effect in self-assembly and the unexpected generality of pyramidal liquid crystals.

Original language	English
Pages (from-to)	6298-6314
Number of pages	17
Journal	Chemistry - A European Journal
Volume	12
Issue number	24
DOIs	https://doi.org/10.1002/chem.200501195
Publication status	Published - Aug 16 2006
Externally published	Yes

All Science Journal Classification (ASJC) codes

Catalysis
Organic Chemistry

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Percec, V., Glodde, M., Peterca, M., Rapp, A., Schnell, I., Spiess, H. W., Bera, T. K., Miura, Y., Balagurusamy, V. S. K., Aqad, E., & Heiney, P. A. (2006). Self-assembly of semifluorinated dendrons attached to electron-donor groups mediates their π-stacking via a helical pyramidal column. Chemistry - A European Journal, 12(24), 6298-6314. https://doi.org/10.1002/chem.200501195

Percec, V, Glodde, M, Peterca, M, Rapp, A, Schnell, I, Spiess, HW, Bera, TK, Miura, Y, Balagurusamy, VSK, Aqad, E & Heiney, PA 2006, 'Self-assembly of semifluorinated dendrons attached to electron-donor groups mediates their π-stacking via a helical pyramidal column', Chemistry - A European Journal, vol. 12, no. 24, pp. 6298-6314. https://doi.org/10.1002/chem.200501195

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abstract = "Semifluorinated first-generation self-assembling dendrons attached via a flexible spacer to electron-donor molecules induce π-stacking of the donors in the center of a supramolecular helical pyramidal column. These helical pyramidal columns self-organize in various columnar liquid crystal phases that mediate self-processing of large single crystal liquid crystal do mains of columns and self-repair their intracolumnar structural defects. In addition, all supramolecular columns exhibit a columnar phase at lower temperatures that maintains the helical pyramidal columnar supramolecular structure and displays higher intracolumnar order than that in the liquid crystals phases. The results described here demonstrate the universality of this concept, the power of the fluorous phase or the fluorophobic effect in self-assembly and the unexpected generality of pyramidal liquid crystals.",

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AU - Glodde, Martin

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AU - Rapp, Almut

AU - Schnell, Ingo

AU - Spiess, Hans W.

AU - Bera, Tushar K.

AU - Miura, Yoshiko

AU - Balagurusamy, Venkatachalapathy S.K.

AU - Aqad, Emad

AU - Heiney, Paul A.

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AB - Semifluorinated first-generation self-assembling dendrons attached via a flexible spacer to electron-donor molecules induce π-stacking of the donors in the center of a supramolecular helical pyramidal column. These helical pyramidal columns self-organize in various columnar liquid crystal phases that mediate self-processing of large single crystal liquid crystal do mains of columns and self-repair their intracolumnar structural defects. In addition, all supramolecular columns exhibit a columnar phase at lower temperatures that maintains the helical pyramidal columnar supramolecular structure and displays higher intracolumnar order than that in the liquid crystals phases. The results described here demonstrate the universality of this concept, the power of the fluorous phase or the fluorophobic effect in self-assembly and the unexpected generality of pyramidal liquid crystals.

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Self-assembly of semifluorinated dendrons attached to electron-donor groups mediates their π-stacking via a helical pyramidal column

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