Roy Sudipta, Mondal Kartik Chandra, Roesky Herbert W
Institut für Anorganische Chemie, Georg-August-Universität , Tammannstrasse 4, 37077 Göttingen, Germany.
Acc Chem Res. 2016 Mar 15;49(3):357-69. doi: 10.1021/acs.accounts.5b00381. Epub 2016 Feb 29.
N-Heterocyclic carbenes (NHCs) are known to stabilize some metal atoms in different oxidation states mostly by their strong σ-donation. After the successful syntheses of cyclic alkyl(amino) carbenes (cAACs), they have been proven to be much more effective in stabilizing electron rich species. In cAAC, one of the σ-withdrawing and π-donating nitrogen atoms of NHC is replaced by a σ-donating quaternary carbon atom leading to a lower lying LUMO. This makes the acceptance of π-back-donation from the element bound to the carbene carbon atom of cAAC energetically more advantageous. Further evidence suggests that the carbene carbon of cAAC can use the lone pair of electrons present on the adjacent nitrogen in a more controlled way depending on the accumulation of electron density on the bound metal. It has been found that cAAC can be utilized as excellent ligand for the stabilization of a complex with three coordinate metal center [(cAAC)2M(I)-Cl; M = Fe, Co, Cr]. Complex (cAAC)2M(II)Cl2 [M = Fe, Co, Cr] was prepared by reacting anhydrous M(II)Cl2 with two equiv of cAAC followed by treatment with one equiv of KC8 (reducing agent) to obtain (cAAC)2M(I)-Cl. The corresponding cation (cAAC)2M(+) was isolated when (cAAC)2M(I)-Cl was reacted with sodium-tetraarylborate (lithium) in toluene or fluorobenzene. The CV of cation (cAAC)2M(+) [M = Co, Fe] suggests that it can reversibly undergo one electron reduction. The cations of Co and Fe were reduced with Na(Hg) or KC8, respectively. (cAAC)2Co(I)Cl can be directly reduced to (cAAC)2Co(0) when reacted with one equiv of KC8. Analogous (cAAC·)2Zn(II) and (cAAC)2Mn complexes are prepared by reduction of (cAAC)MCl2 [M = Zn, Mn] with two equiv of KC8 in the presence of one equiv of cAAC. The square planar (cAAC)2NiCl2 complex was directly reduced by two equiv of LiN(iPr2) (KC8) to (cAAC)2Ni(0). The (cAAC)2Pd(0) and (cAAC)2Pt(0) complexes are prepared by substituting all four triphenylphosphines of (Ph3P)4M(0) [M = Pd, Pt] by two cAACs. Cation (cAAC)2M(+) [M = Cu, Au] was reduced with sodium/potassium to obtain the neutral analogue [(cAAC)2Cu, (cAAC)2Au]. Two coordinate Zn/Mn/Cu/Au are stabilized by two neutral carbene ligands possessing radical electrons on the carbene carbon atoms, while analogous complexes of Co/Fe/Ni/Pd/Pt contain metals in the zero oxidation state. The ground electronic structure of (cAAC)2M was thoroughly studied by theoretical calculations. In this Account, we summarize our developments in stabilizing metal complexes with low coordinate metal atoms in two, one, and most significantly in their zero oxidation states by utilizing cAACs as ligands.
已知氮杂环卡宾(NHCs)主要通过其强大的σ-给电子作用来稳定处于不同氧化态的某些金属原子。在成功合成环状烷基(氨基)卡宾(cAACs)之后,已证明它们在稳定富电子物种方面更为有效。在cAAC中,NHC的一个吸电子且给π电子的氮原子被一个给σ电子的季碳原子取代,导致最低未占分子轨道(LUMO)能量更低。这使得从与cAAC卡宾碳原子相连的元素接受π-反馈给电子在能量上更有利。进一步的证据表明,cAAC的卡宾碳可以根据结合金属上电子密度的积累,以一种更可控的方式利用相邻氮原子上的孤对电子。已发现cAAC可用作稳定具有三配位金属中心[(cAAC)2M(I)-Cl;M = Fe、Co、Cr]的配合物的优良配体。配合物(cAAC)2M(II)Cl2 [M = Fe、Co、Cr]是通过使无水M(II)Cl2与两当量的cAAC反应,然后用一当量的KC8(还原剂)处理以得到(cAAC)2M(I)-Cl而制备的。当(cAAC)2M(I)-Cl与甲苯或氟苯中的四芳基硼酸钠(锂)反应时,分离出相应的阳离子(cAAC)2M(+)。阳离子(cAAC)2M(+) [M = Co、Fe]的循环伏安法表明它可以可逆地进行单电子还原。Co和Fe的阳离子分别用Na(Hg)或KC8还原。当与一当量的KC8反应时,(cAAC)2Co(I)Cl可直接还原为(cAAC)2Co(0)。通过在一当量的cAAC存在下用两当量的KC8还原(cAAC)MCl2 [M = Zn、Mn],制备了类似的(cAAC·)2Zn(II)和(cAAC)2Mn配合物。平面正方形的(cAAC)2NiCl2配合物通过两当量的LiN(iPr2)(KC8)直接还原为(cAAC)2Ni(0)。(cAAC)2Pd(0)和(cAAC)2Pt(0)配合物是通过用两个cAAC取代(Ph3P)4M(0) [M = Pd、Pt]的所有四个三苯基膦而制备的。阳离子(cAAC)2M(+) [M = Cu、Au]用钠/钾还原以得到中性类似物[(cAAC)2Cu、(cAAC)2Au]。二配位的Zn/Mn/Cu/Au由两个在卡宾碳原子上具有自由基电子的中性卡宾配体稳定,而Co/Fe/Ni/Pd/Pt的类似配合物包含处于零氧化态的金属。通过理论计算对(cAAC)2M的基态电子结构进行了深入研究。在本综述中,我们总结了利用cAACs作为配体在稳定具有低配位金属原子的金属配合物方面的进展,这些金属原子处于二价、一价,最重要的是处于零氧化态。
