硒二氮杂萘并喹啉在碱性介质中的阳极氧化。
Anodic oxidation of selenadiazoloquinolones in alkaline media.
机构信息
Faculty of Chemical and Food Technology, Institute of Physical Chemistry and Chemical Physics, Slovak University of Technology in Bratislava, Bratislava, Slovak Republic.
出版信息
Magn Reson Chem. 2011 Apr;49(4):168-74. doi: 10.1002/mrc.2716. Epub 2011 Jan 18.
Newly synthesized derivatives of 6-oxo-6,9-dihydro[1,2,5]selenadiazolo[3,4-h]quinoline variously substituted at position 7 (R = H, COOH, COCH(3), CN, COOC(2)H(5) and COOCH(3)) are established in strongly alkaline aqueous solutions (0.1 M NaOH; pH ∼ 13) as N(9)-deprotonated structures, but in less alkaline solutions (0.001 M NaOH; pH ∼ 11) the N(9)-protonated oxo tautomeric forms dominate. Upon their anodic oxidation in alkaline solutions, the selenadiazole ring is replaced, forming instead the paramagnetic species analogous to the ortho semiquinone radical anions as monitored by in situ EPR spectroscopy. The quantum chemical calculations for two representative selenadiazoloquinolones (R = H and COOH) and their anodic oxidation products presented are in agreement with experiments.
新合成的 6-氧代-6,9-二氢[1,2,5]硒二唑并[3,4-h]喹啉衍生物在位置 7 上具有各种取代基(R = H、COOH、COCH(3)、CN、COOC(2)H(5)和 COOCH(3)),在强碱性水溶液中(0.1 M NaOH;pH ∼ 13)被确立为 N(9)-去质子化结构,但在碱性较弱的溶液中(0.001 M NaOH;pH ∼ 11),N(9)-质子化的氧代互变异构体占主导地位。在碱性溶液中进行阳极氧化时,硒二唑环被取代,形成与邻醌自由基阴离子类似的顺磁物种,这可通过原位 EPR 光谱进行监测。对于两种代表性的硒二唑并喹诺酮(R = H 和 COOH)及其阳极氧化产物的量子化学计算与实验结果一致。
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