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W2896848208 endingPage "2606" @default.
W2896848208 startingPage "2606" @default.
W2896848208 abstract "We report experimental tests of whether non-rigid, π-conjugated luminophores in the photoexcited (S1) and ground (S0) states dissolved in achiral liquids are mirror symmetrical by means of circularly polarized luminescence (CPL) and circular dichroism (CD) spectroscopy. Herein, we chose ten oligofluorenes, eleven linear/cyclic oligo-p-arylenes, three binaphthyls and five fused aromatics, substituted with alkyl, alkoxy, phenyl and phenylethynyl groups and also with no substituents. Without exception, all these non-rigid luminophores showed negative-sign CPL signals in the UV-visible region, suggesting temporal generation of energetically non-equivalent non-mirror image structures as far-from equilibrium open-flow systems at the S1 state. For comparison, unsubstituted naphthalene, anthracene, tetracene and pyrene, which are achiral, rigid, planar luminophores, did not obviously show CPL/CD signals. However, camphor, which is a rigid chiral luminophore, showed mirror-image CPL/CD signals. The dissymmetry ratio of CPL (glum) for the oligofluorenes increased discontinuously, ranging from ≈ −(0.2 to 2.0) × 10−3, when the viscosity of the liquids increased. When the fluorene ring number increased, the glum value extrapolated at [η] = 0 reached −0.8 × 10−3 at 420 nm, leading to (–)-CPL signals predicted in the vacuum state. Our comprehensive CPL and CD study should provide a possible answer to the molecular parity violation hypothesis arising due to the weak neutral current mediated by the Z0-boson." @default.
W2896848208 created "2018-10-26" @default.
W2896848208 creator A5007662859 @default.
W2896848208 creator A5033328975 @default.
W2896848208 creator A5059066956 @default.
W2896848208 creator A5066704922 @default.
W2896848208 date "2018-10-11" @default.
W2896848208 modified "2023-10-05" @default.
W2896848208 title "Questions of Mirror Symmetry at the Photoexcited and Ground States of Non-Rigid Luminophores Raised by Circularly Polarized Luminescence and Circular Dichroism Spectroscopy: Part 1. Oligofluorenes, Oligophenylenes, Binaphthyls and Fused Aromatics" @default.
W2896848208 cites W140487128 @default.
W2896848208 cites W1506431819 @default.
W2896848208 cites W1570824754 @default.
W2896848208 cites W1595094617 @default.
W2896848208 cites W1654101816 @default.
W2896848208 cites W178251038 @default.
W2896848208 cites W194293426 @default.
W2896848208 cites W1964920650 @default.
W2896848208 cites W1965163150 @default.
W2896848208 cites W1966072706 @default.
W2896848208 cites W1970504952 @default.
W2896848208 cites W1971619379 @default.
W2896848208 cites W1973777939 @default.
W2896848208 cites W1974691906 @default.
W2896848208 cites W1974964454 @default.
W2896848208 cites W1976894203 @default.
W2896848208 cites W1978286097 @default.
W2896848208 cites W1979077435 @default.
W2896848208 cites W1979583065 @default.
W2896848208 cites W1981562351 @default.
W2896848208 cites W1985484430 @default.
W2896848208 cites W1995495360 @default.
W2896848208 cites W2000357038 @default.
W2896848208 cites W2000648158 @default.
W2896848208 cites W2004888781 @default.
W2896848208 cites W2008849514 @default.
W2896848208 cites W2013502476 @default.
W2896848208 cites W2015093539 @default.
W2896848208 cites W2016710886 @default.
W2896848208 cites W2026603109 @default.
W2896848208 cites W2032890933 @default.
W2896848208 cites W2033003338 @default.
W2896848208 cites W2033235785 @default.
W2896848208 cites W2036508574 @default.
W2896848208 cites W2040352136 @default.
W2896848208 cites W2043006430 @default.
W2896848208 cites W2044989590 @default.
W2896848208 cites W2045123310 @default.
W2896848208 cites W2047170382 @default.
W2896848208 cites W2055162525 @default.
W2896848208 cites W2056940105 @default.
W2896848208 cites W2059176042 @default.
W2896848208 cites W2060595439 @default.
W2896848208 cites W2062307763 @default.
W2896848208 cites W2062958496 @default.
W2896848208 cites W2063355943 @default.
W2896848208 cites W2066030039 @default.
W2896848208 cites W2068661550 @default.
W2896848208 cites W2069007845 @default.
W2896848208 cites W2074403312 @default.
W2896848208 cites W2076761750 @default.
W2896848208 cites W2077381472 @default.
W2896848208 cites W2077832853 @default.
W2896848208 cites W2078613675 @default.
W2896848208 cites W2079500215 @default.
W2896848208 cites W2087994408 @default.
W2896848208 cites W2092005014 @default.
W2896848208 cites W2093987607 @default.
W2896848208 cites W2094042512 @default.
W2896848208 cites W2094318991 @default.
W2896848208 cites W2102442194 @default.
W2896848208 cites W2110190753 @default.
W2896848208 cites W2118312292 @default.
W2896848208 cites W2119781804 @default.
W2896848208 cites W2137408351 @default.
W2896848208 cites W2142374486 @default.
W2896848208 cites W2156955123 @default.
W2896848208 cites W2157338954 @default.
W2896848208 cites W2157521633 @default.
W2896848208 cites W2159764916 @default.
W2896848208 cites W2164115269 @default.
W2896848208 cites W2166026468 @default.
W2896848208 cites W2168596468 @default.
W2896848208 cites W2168898569 @default.
W2896848208 cites W2219696902 @default.
W2896848208 cites W2229720163 @default.
W2896848208 cites W2317134831 @default.
W2896848208 cites W2328170784 @default.
W2896848208 cites W2418906416 @default.
W2896848208 cites W2509028345 @default.
W2896848208 cites W2735142762 @default.
W2896848208 cites W2755944404 @default.
W2896848208 cites W3105230739 @default.
W2896848208 cites W3121832354 @default.
W2896848208 cites W3152328244 @default.
W2896848208 cites W3197070801 @default.
W2896848208 cites W4211224182 @default.
W2896848208 cites W4251158957 @default.
W2896848208 doi "https://doi.org/10.3390/molecules23102606" @default.