Department of Chemistry, Graduate School of Engineering Science, Osaka University, CRST, JST, Toyonaka, Osaka 560-8531, Japan.
J Am Chem Soc. 2013 Sep 4;135(35):13149-61. doi: 10.1021/ja406519u. Epub 2013 Aug 23.
Direct dehydrogenative silylation of pyridyl and iminyl substrates with triethylsilane was achieved using (L)Ir(cod)(X) (1) (L = a perimidine-based carbene ligand, X = OAc and OCOPh) complexes as catalysts under toluene refluxing conditions in the presence of norbornene as a hydrogen scavenger, and the silylated products were obtained in good yields. The isolated bis(cyclometalated)iridium complexes, (C(∧)C:)(C(∧)N)IrOAc (2) (C(∧)C: = a cyclometalated perimidine-carbene ligand and C(∧)N = a cyclometalated pyridyl- and iminyl-ligated aromatic substrate), were key intermediates, where cyclometalated five-membered metallacycles of substrates such as phenylpyridine were selectively formed before yielding mono-ortho-silylation products. The bis(cyclometalated)iridium complex ((Xy)C(∧)C:)(C(∧)N)IrOAc (2d) ((Xy)C(∧)C: = a cyclometalated N-xylyl-N'-methylperimidine-carbene ligand and C(∧)N = a 2-pyridylphenyl ligand), reacted with 2 equiv of Et3SiH to give an iridium hydride complex, (L(4))(C(∧)N)Ir(H)(SiEt3) (8d) (L(4) = N-CH3, N-3,5-(CH3)2C6H3 perimidine), via demetalation of a N-3,5-xylyl ring of the carbene ligand of 2d. The formation of 8d was confirmed by isolating the corresponding chloro complex (L(4))(C(∧)N)Ir(Cl)(SiEt3) (8d-Cl) by treatment with CCl4. The N-methyl moiety of the carbene ligand coordinated to 8d was cyclometalated in the presence of norbornene at room temperature to afford ((Me)C(∧)C:)(C(∧)N)Ir(SiEt3) (10d) ((Me)C(∧)C: = a cyclometalated N-xylyl-N'-methylperimidine-carbene), while at high temperature 8d reacted with norbornene and Et3SiH to afford the silylated product, 2-(2-triethylsilyl)phenylpyridine (3a) and norbornane. A deuterium labeling experiment using 2d and Et3SiD (excess) revealed the incorporation of deuterium atoms at two ortho-positions of the N-xylyl group (>90%) and at the 3-position of 2-pyridylphenyl ligand (ca. 40%) within 3 h at room temperature, indicating that the cyclometalation/demetalation of the N-xylylperimidine carbene and 2-phenylpyridine ligands were reversible processes. Isolation of these cyclometalated iridium complexes under controlled conditions and D-labeling experiments thus revealed a dual function of the N-aryl group bound to the perimidine-carbene ligand, which acted as both a neutral carbene ligand and a monoanionic ortho-metalated aryl-carbene ligand through reversible C-H bond activation and Ir-C bond cleavage of the N-aryl group during the catalytic cycle.
通过使用 (L)Ir(cod)(X)(1)(L = 基于嘧啶的卡宾配体,X = OAc 和 OCOPh)配合物作为催化剂,在甲苯回流条件下,吡啶基和亚胺基底物与三乙硅烷的直接脱氢硅化反应得以实现,在存在降冰片烯作为氢清除剂的情况下,得到了良好收率的硅化产物。分离出的双(环金属化)铱配合物 ((C(∧)C:)(C(∧)N)IrOAc(2)(C(∧)C: = 基于环金属化的嘧啶-卡宾配体,C(∧)N = 基于环金属化的吡啶基和亚胺基配位芳基底物)是关键中间体,其中底物如苯吡啶的环金属化五元金属环在生成单邻位硅化产物之前被选择性形成。双(环金属化)铱配合物 ((Xy)C(∧)C:)(C(∧)N)IrOAc(2d)((Xy)C(∧)C: = 基于环金属化的 N-邻二甲苯基-N'-甲基嘧啶-卡宾配体,C(∧)N = 2-吡啶基苯基配体),与 2 当量的 Et3SiH 反应,通过 2d 的卡宾配体的 N-3,5-二甲苯基环的脱金属化,生成铱氢配合物 ((L(4))(C(∧)N)Ir(H)(SiEt3)(8d)(L(4) = N-CH3,N-3,5-(CH3)2C6H3 嘧啶)。通过用 CCl4 处理,得到相应的氯配合物 ((L(4))(C(∧)N)Ir(Cl)(SiEt3)(8d-Cl),从而确认了 8d 的形成。在室温下,在降冰片烯的存在下,卡宾配体的 N-甲基部分发生环金属化,生成 ((Me)C(∧)C:)(C(∧)N)Ir(SiEt3)(10d)((Me)C(∧)C: = 基于环金属化的 N-邻二甲苯基-N'-甲基嘧啶-卡宾配体),而在高温下,8d 与降冰片烯和 Et3SiH 反应,生成硅化产物 2-(2-三乙硅基)苯基吡啶(3a)和降冰片烷。使用 2d 和 Et3SiD(过量)进行的氘标记实验表明,在室温下 3 小时内,N-邻二甲苯基基团的两个邻位(>90%)和 2-吡啶基苯基配体的 3-位(约 40%)掺入了氘原子,表明 N-邻二甲苯基嘧啶卡宾和 2-吡啶基苯基配体的环金属化/脱金属化是可逆过程。在受控条件下分离这些环金属化的铱配合物和氘标记实验因此揭示了与嘧啶-卡宾配体结合的 N-芳基基团的双重功能,该基团通过 N-芳基基团的可逆 C-H 键活化和 Ir-C 键断裂,在催化循环中充当中性卡宾配体和单阴离子邻位金属化芳基-卡宾配体。
