TY - JOUR
T1 - Metastable liquid crystal as time-responsive reaction medium
T2 - Aging-induced dual enantioselective control
AU - Ishida, Yasuhiro
AU - Matsuoka, Yuki
AU - Kai, Yukiko
AU - Yamada, Kuniyo
AU - Nakagawa, Kenta
AU - Asahi, Toru
AU - Saigo, Kazuhiko
PY - 2013/5/1
Y1 - 2013/5/1
N2 - A metastable liquid crystal (LC) was found to serve as a time-responsive reaction medium, in which the enantioselectivity of a photoreaction was perfectly switched through isothermal annealing of the reaction system. When the LC salt of an enantiopure amine with a photoreactive acid was irradiated with UV/vis light, in situ photodimerization of the acid moiety proceeded smoothly to afford the (+)-isomer of the photodimer with high enantioselectivity (+86% ee). In contrast, photoirradiation of an aged sample, isothermally annealed for 20 h, gave predominantly the (-)-isomer (-94% ee). Systematic studies revealed that the reversal in selectivity originated from metastability of the LC system, which gradually transformed into a crystalline phase during annealing. This finding demonstrates the potential use of metastable aggregates as dynamic time-responsive media, reminiscent of biological systems.
AB - A metastable liquid crystal (LC) was found to serve as a time-responsive reaction medium, in which the enantioselectivity of a photoreaction was perfectly switched through isothermal annealing of the reaction system. When the LC salt of an enantiopure amine with a photoreactive acid was irradiated with UV/vis light, in situ photodimerization of the acid moiety proceeded smoothly to afford the (+)-isomer of the photodimer with high enantioselectivity (+86% ee). In contrast, photoirradiation of an aged sample, isothermally annealed for 20 h, gave predominantly the (-)-isomer (-94% ee). Systematic studies revealed that the reversal in selectivity originated from metastability of the LC system, which gradually transformed into a crystalline phase during annealing. This finding demonstrates the potential use of metastable aggregates as dynamic time-responsive media, reminiscent of biological systems.
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U2 - 10.1021/ja4016556
DO - 10.1021/ja4016556
M3 - Article
C2 - 23597022
AN - SCOPUS:84877019587
SN - 0002-7863
VL - 135
SP - 6407
EP - 6410
JO - Journal of the American Chemical Society
JF - Journal of the American Chemical Society
IS - 17
ER -