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外文期刊>The Journal of Organic Chemistry
>DIHETEROARYLMETHANES .6. PROBING THE ELECTRON-WITHDRAWING RANK OF HETEROARYL GROUPS BY CONFORMATIONAL STUDIES OF PUSH-PULL ETHYLENES - ISOLATION OF NH-ENAMINE TAUTOMERS OF ALPHA,ALPHA-DIHETEROARYLACETALDEHYDES (HETEROARYL EQUALS 2-BENZOXAZOLYL, 2-BEN
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DIHETEROARYLMETHANES .6. PROBING THE ELECTRON-WITHDRAWING RANK OF HETEROARYL GROUPS BY CONFORMATIONAL STUDIES OF PUSH-PULL ETHYLENES - ISOLATION OF NH-ENAMINE TAUTOMERS OF ALPHA,ALPHA-DIHETEROARYLACETALDEHYDES (HETEROARYL EQUALS 2-BENZOXAZOLYL, 2-BEN
Enamines and enol ethers substituted in the beta position by the 2-benzoxazolyl and 2-benzothiazolyl group have been obtained by condensing dimethylformamide dimethyl acetal and ethyl orthoformate, respectively, with bis(2-benzoxazolyl)methane and bis(2-benzothiazolyl)methane. A dynamic NMR and semiempirical (PM3) investigation on rotational energy barriers has been carried out in order to rank the electron-withdrawing capacity of the heterocyclic rings. The NMR-based evaluation of the energy barriers corresponding to the rotation along the enaminic double bond has shown that the pi-electron-withdrawing power of benzothiazole is larger than that of benzoxazole, in full accord with previously obtained charge demand values based on C-13 and N-15 pi-charge/shift relationships. The NMR and the computational approaches have led to consistent results. The X-ray crystal structure of alpha,alpha-bis(2-benzothiazolyl)-beta-(dimethylamino)ethene shows that only one heteroaryl ring is coplanar with the enaminic double bond, while the second one is twisted by 73 degrees relative to such a plane. Moreover, in this case calculations closely reproduce the experimental results. In the calculated transition states corresponding to the rotational process along the enamine double bond, the two heteroaryl groups become coplanar and conjugation develops between the enaminic nitrogen electron pool and both heterocycles. The lower rotational barrier observed in the case of the 2-benzothiazolyl derivatives, with respect to the 2-benzoxazolyl derivatives, is therefore a direct consequence of the higher electron-withdrawing power of the former group. Furthermore, a stabilizing intramolecular nonbonded S ... S interaction in the rotational transition state of the benzothiazolyl derivatives is evidenced by the calculations. An unprecedented isolation of the NH-enamine tautomer involving the benzoxazolyl and benzothiazolyl ring in alpha,alpha-diheteroacetaldehydes has been performed, confirming these heterocycles as strong electron-withdrawing substituents. [References: 35]
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