Naoko Ojima scite author profile

Photomechanical bending of trans-4-(dimethylamino)azobenzene microcrystals was observed. Upon UV irradiation, the (001) face of the platelike microcrystals bent quickly in the direction opposite the light source, reaching the maximum deflection after 0.5 s. The microcrystal returned to its initial flat shape 30 s after the illumination was stopped. This mechanical motion was reversible over repeated cycles of UV irradiation. The bending effect was attributed to a gradient in the extent of UV-induced trans-cis photoisomerization as a function of light penetration, causing the expansion of the irradiated crystal surface along the b axis to result in a bent macrostructure.

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Photomechanical Motion of Furylfulgide Crystals

Koshima

Nakaya

Uchimoto

et al. 2011

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Photomechanical bending of 4-aminoazobenzene crystals

Koshima

Ojima

2012

Dyes and Pigments

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Absolute Asymmetric Photocyclization of Triisopropylbenzophenone Derivatives in Crystals and Their Morphological Changes

et al. 2014

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Although 4-(2,4,6-triisopropylbenzoyl)benzylbenzamide is an achiral molecule, chiral crystals can form through spontaneous crystallization in a methanol solution. In the M crystal, twofold helical hydrogen-bond chains form in a counterclockwise direction among the molecules along the a axis to generate crystal chirality. The solid-state circular dichroism spectra of the two enantiomorphous crystals as Nujol mulls show a good mirror-image relationship. UV irradiation of the M crystal at >290 nm caused highly enantioselective Norrish type II photocyclization to yield the (R)-cyclobutenol with 94% ee in 100% yield as the sole product, resulting in successful absolute asymmetric synthesis. In contrast, the (S)-cyclobutenol was obtained from the P crystal with 95% ee in 100% yield. The high enantiodifferentiation in the crystalline-state photocyclization is attributed to the shorter distance between the carbonyl oxygen atom and one of the methine γ-hydrogen atoms of the two o-isopropyl groups as well as the smooth transformation with minimum molecular motion because of the similar shapes of the reactant and product molecules. UV irradiation of the platelike crystals resulted in a crack in the direction perpendicular to the long axis (the a axis of the unit cell), likely because the hydrogen-bond chains were broken during the photocyclization.

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Naoko Ojima

Mechanical Motion of Azobenzene Crystals upon Photoirradiation

Photomechanical Motion of Furylfulgide Crystals

Photomechanical bending of 4-aminoazobenzene crystals

Absolute Asymmetric Photocyclization of Triisopropylbenzophenone Derivatives in Crystals and Their Morphological Changes

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