(TTP)Ti(η²-PhN=NPh)的合成、电化学及亚胺转移反应
Synthesis, Electrochemistry, and Imido Transfer Reactions of (TTP)Ti(eta(2)-PhN=NPh).
作者信息
Gray Steven D., Thorman Joseph L., Adamian Victor A., Kadish Karl M., Woo L. Keith
机构信息
Departments of Chemistry, Iowa State University, Ames, Iowa 50011-3111, and University of Houston, Houston, Texas 77204.
出版信息
Inorg Chem. 1998 Jan 12;37(1):1-4. doi: 10.1021/ic970952e.
Treatment of (TTP)Ti(eta(2)-RC&tbd1;CR) (R = Et or Ph) with PhN=NPh results in formation of the azobenzene adduct (TTP)Ti(eta(2)-PhN=NPh) (1) in good isolated yield. Complex 1 reacts with (TTP)Ti(eta(2)-RC&tbd1;CR) at elevated temperatures to cleanly afford 2 equiv of the phenylimido compound, (TTP)Ti=NPh (2). The azobenzene complex, 1, is also formed in low yields by the reaction of the (TTP)Ti=NPh (2) with excess 1,2-diphenylhydrazine. The electrochemistry of the azobenzene adduct (1) and the phenylimido complex (2) is investigated by cyclic voltammetry experiments.
用PhN=NPh处理(TTP)Ti(η²-RC≡CR)(R = Et或Ph),能以良好的分离产率得到偶氮苯加合物(TTP)Ti(η²-PhN=NPh)(1)。配合物1在高温下与(TTP)Ti(η²-RC≡CR)反应,能顺利得到2当量的苯基亚氨基化合物(TTP)Ti=NPh(2)。偶氮苯配合物1也可通过(TTP)Ti=NPh(2)与过量的1,2-二苯基肼反应以低产率形成。通过循环伏安法实验研究了偶氮苯加合物(1)和苯基亚氨基配合物(2)的电化学性质。
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