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W3125097112 abstract "Three distinct four-component supramolecular nanorotors were prepared, using, for the first time, bipyridine instead of phenanthroline stations in the stator. Following our established self-sorting protocol to multicomponent nanodevices, the nanorotors were self-assembled by mixing the stator, rotators with various pyridine head groups, copper(I) ions and 1,4-diazabicyclo[2.2.2]octane (DABCO). Whereas the exchange of a phenanthroline vs. a bipyridine station did not entail significant changes in the rotational exchange frequency, the para-substituents at the pyridine head group of the rotator had drastic consequences on the speed: 4-OMe (k298 = 35 kHz), 4-H (k298 = 77 kHz) and 4-NO2 (k298 = 843 kHz). The exchange frequency (log k) showed an excellent linear correlation with both the Hammett substituent constants and log K of the copper(I)–ligand interaction, proving that rotator–copper(I) bond cleavage is the key determining factor in the rate-determining step." @default.
W3125097112 created "2021-02-01" @default.
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W3125097112 date "2021-01-22" @default.
W3125097112 modified "2023-10-17" @default.
W3125097112 title "Exchange Speed of Four-Component Nanorotors Correlates with Hammett Substituent Constants" @default.
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W3125097112 doi "https://doi.org/10.3390/chemistry3010009" @default.
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