高亲电性四价受限几何构型4d和5f配合物催化的分子内氨基烯烃和氨基炔烃氢胺化/环化反应的机理研究。M-N σ键插入途径的证据。
Mechanistic investigation of intramolecular aminoalkene and aminoalkyne hydroamination/cyclization catalyzed by highly electrophilic, tetravalent constrained geometry 4d and 5f complexes. Evidence for an M-N sigma-bonded insertive pathway.
作者信息
Stubbert Bryan D, Marks Tobin J
机构信息
Department of Chemistry, Northwestern University, Evanston, Illinois 60208-3113, USA.
出版信息
J Am Chem Soc. 2007 May 16;129(19):6149-67. doi: 10.1021/ja0675898. Epub 2007 Apr 19.
A mechanistic study of intramolecular hydroamination/cyclization catalyzed by tetravalent organoactinide and organozirconium complexes is presented. A series of selectively substituted constrained geometry complexes, (CGC)M(NR2)Cl (CGC = [Me2Si(eta5-Me4C5)(tBuN)]2-; M = Th, 1-Cl; U, 2-Cl; R = SiMe3; M = Zr, R = Me, 3-Cl) and (CGC)An(NMe2)OAr (An = Th, 1-OAr; An = U, 2-OAr), has been prepared via in situ protodeamination (complexes 1-2) or salt metathesis (3-Cl) in high purity and excellent yield and is found to be active precatalysts for intramolecular primary and secondary aminoalkyne and aminoalkene hydroamination/cyclization. Substrate reactivity trends, rate laws, and activation parameters for cyclizations mediated by these complexes are virtually identical to those of more conventional (CGC)MR2 (M = Th, R = NMe2, 1; M = U, R = NMe2, 2; M = Zr, R = Me, 3), (Me2SiCp' '2)UBn2 (Cp' ' = eta5-Me4C5; Bn = CH2Ph, 4), Cp'2AnR2 (Cp' = eta5-Me5C5; R = CH2SiMe3; An = Th, 5, U, 6), and analogous organolanthanide complexes. Deuterium KIEs measured at 25 degrees C in C6D6 for aminoalkene D2NCH2C(CH3)2CH2CHCH2 (11-d2) with precatalysts 2 and 2-Cl indicate that kH/kD = 3.3(5) and 2.6(4), respectively. Together, the data provide strong evidence in these systems for turnover-limiting C-C insertion into an M-N(H)R sigma-bond in the transition state. Related complexes (Me2SiCp' '2)U(Bn)(Cl) (4-Cl) and Cp'2An(R)(Cl) (R = CH2(SiMe3); An = Th, 5-Cl; An = U, 6-Cl) are also found to be effective precatalysts for this transformation. Additional arguments supporting M-N(H)R intermediates vs M=NR intermediates are presented.
本文介绍了四价有机锕系和有机锆配合物催化分子内氢胺化/环化反应的机理研究。通过原位脱氨基反应(配合物1-2)或盐复分解反应(3-Cl)制备了一系列选择性取代的限域几何构型配合物,(CGC)M(NR2)Cl(CGC = [Me2Si(η5-Me4C5)(tBuN)]2-;M = Th,1-Cl;U,2-Cl;R = SiMe3;M = Zr,R = Me,3-Cl)和(CGC)An(NMe2)OAr(An = Th,1-OAr;An = U,2-OAr),产率高且纯度优异,发现它们是分子内伯胺和仲胺炔烃以及胺烯烃氢胺化/环化反应的活性前催化剂。这些配合物介导的环化反应的底物反应活性趋势、速率定律和活化参数与更传统的(CGC)MR2(M = Th,R = NMe2,1;M = U,R = NMe2,2;M = Zr,R = Me,3)、(Me2SiCp''2)UBn2(Cp'' = η5-Me4C5;Bn = CH2Ph,4)、Cp'2AnR2(Cp' = η5-Me5C5;R = CH2SiMe3;An = Th,5,U,6)以及类似的有机镧系配合物几乎相同。在25℃下于C6D6中用前催化剂2和2-Cl对胺烯烃D2NCH2C(CH3)2CH2CHCH2(11-d2)测定的氘动力学同位素效应表明,kH/kD分别为3.3(5)和2.6(4)。这些数据共同为这些体系中过渡态下C-C插入M-N(H)R σ键限制反应速率提供了有力证据。还发现相关配合物(Me2SiCp''2)U(Bn)(Cl)(4-Cl)和Cp'2An(R)(Cl)(R = CH2(SiMe3);An = Th,5-Cl;An = U,6-Cl)也是该转化反应的有效前催化剂。本文还提出了支持M-N(H)R中间体而非M=NR中间体的其他论据。
Zotero 插件