Synthesis and Crystal Structure of the Bis(μ-hydroxo)diiron(II) Complex with Tridentate Ligands Having a Sterically Bulky Imidazolyl Group

IF 0.1 Q4 CRYSTALLOGRAPHY X-ray Structure Analysis Online Pub Date : 2019-05-10 DOI:10.2116/XRAYSTRUCT.35.27
Reiko Yaguchi, H. Furutachi, Sanae Shirotsuki, Xi Zhang, T. Ishikawa, Shigehisa Akine, T. Tosha, S. Fujinami, Masatatsu Suzuki, T. Kitagawa
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Abstract

The Fe2/O2-mediated arene hydroxylation is of current interest for understanding the reaction mechanism of a dioxygen activating non-heme dinuclear iron enzyme, such as toluene monooxygenase (TMO).1–3 Previously, we reported on intramolecular aromatic ligand hydroxylation via the decay of (μ-peroxo)diiron(III) complexes with the dinucleating ligands having a phenyl group as a reaction probe.4–6 In this study, we synthesized the bis(μ-hydroxo)diiron(II) complex [Fe2(OH)2(L)2](ClO4)2 (1) with a tridentate ligand (L) having 2-phenylimidazolyl groups in order to examine the Fe2/O2-mediated arene hydroxylation (Fig. 1). In this paper, we report on the crystal structure of 1 together with the reactivity toward dioxygen. The tridentate ligand L·H2O was synthesized according to a literature method.7 The diiron(II) complex with L was prepared under a N2 atmosphere. A mixture of Fe(CF3SO3)2·2CH3CN (0.436 g, 1.0 mmol) and L·H2O (0.456 g, 1.0 mmol) in dryTHF/CH2Cl2 (1:1, 20 mL) was added a THF solution (3 mL) containing H2O (18 μL, 1.0 mmol) and triethylamine (138 μL, 1.0 mmol) to give a yellow-green solution. Diethyl ether (20 mL) was added to the resulting yellow-green solution to give a yellow-green powder, which was filtered and washed with diethyl ether. Yield: 0.32 g, 47%. Anal. Found: C, 52.51; H, 4.43; N, 10.18%. Calcd for [Fe2(OH)2(L)2](CF3SO3)2·2H2O, C60H64F6Fe2N10O10S2: C, 52.41; H, 4.69; N, 10.19%. Single crystals of [Fe2(OH)2(L)2](ClO4)2 (1) suitable for X-ray crystallography were obtained by slow diffusion of diethyl ether onto a dry-CH2Cl2/MeCN (1:1) solution of a yellow-green powder containing (n-Bu)4NClO4. X-ray diffraction measurements were made on a Rigaku CCD Mercury diffractometer with graphite-monochromated Mo Kα radiation at 123 K. The structure was solved by a direct method (SHELXS 97)9 and expanded using a Fourier technique. The structure was refined by a full-matrix least-squares method by using a SHELXL 201410 (Yadokari-XG).11 All non-hydrogen atoms were refined with anisotropic displacement parameters. The μ-hydroxo hydrogen atoms were refined using distance restraints with Uiso constrained to 1.2-times the Ueq of the parent oxygen atoms. Other hydrogen atoms were included using a riding model. The crystal data are summarized in Table 1. X-ray crystallography of 1 reveals that the asymmetric unit contains a half of the complex cation [Fe2(OH)2(L)2] and a perchlorate anion. The molecular structure of the complex cation [Fe2(OH)2(L)2] of 1 is shown in Fig. 2. Selected bond distances (Å) and angles (°) are given in Table 2. The complex cation [Fe2(OH)2(L)2] of 1 has a centrosymmetric bis(μhydroxo)diiron(II) diamond core, as found for a closely related five-coordinated bis(μ-hydroxo)diiron(II) complex [Fe2(OH)22019 © The Japan Society for Analytical Chemistry
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具有空间大体积咪唑基的双μ-羟基二铁(II)配合物的合成和晶体结构
Fe2/ o2介导的芳烃羟基化反应对了解双氧激活非血红素双核铁酶(如甲苯单加氧酶(TMO))的反应机制具有重要意义。1-3以前,我们报道了分子内芳香配体的羟基化,通过(μ-过氧)二铁(III)配合物的衰变,以苯基为反应探针的二核配体。4-6在本研究中,我们合成了双(μ-羟基)二铁(II)配合物[Fe2(OH)2(L)2](ClO4)2(1)与一个具有2-苯基咪唑基的三齿配体(L),以研究Fe2/ o2介导的芳烃羟基化反应(图1)。在本文中,我们报道了1的晶体结构和对二氧的反应性。根据文献法合成了L·H2O三齿配体在N2气氛下制备了L -二铁配合物。将Fe(CF3SO3)2·2CH3CN (0.436 g, 1.0 mmol)和L·H2O (0.456 g, 1.0 mmol)在dryTHF/CH2Cl2 (1:1, 20 mL)中混合,加入含有H2O (18 μL, 1.0 mmol)和三乙胺(138 μL, 1.0 mmol)的THF溶液(3 mL),得到黄绿色溶液。在得到的黄绿色溶液中加入乙醚(20ml),得到黄绿色粉末,过滤后用乙醚洗涤。收率:0.32 g, 47%。分析的发现:C, 52.51;H, 4.43;N, 10.18%。[Fe2(OH)2(L)2](CF3SO3)2·2H2O, C60H64F6Fe2N10O10S2: C, 52.41;H, 4.69;N, 10.19%。将乙醚缓慢扩散到含有(n-Bu)4NClO4的黄绿色粉末的ch2cl2 /MeCN(1:1)溶液上,得到了适合x射线晶体学的[Fe2(OH)2(L)2](ClO4)2(1)单晶。在Rigaku CCD水银衍射仪上用石墨-单铬化Mo Kα辐射在123 K下进行了x射线衍射测量。该结构采用直接法(SHELXS 97)9求解,并采用傅里叶技术展开。采用SHELXL 201410 (Yadokari-XG)全矩阵最小二乘法对结构进行优化所有非氢原子均采用各向异性位移参数进行细化。μ-羟基氢原子采用距离约束,Ueq约束为母体氧原子Ueq的1.2倍。其他氢原子被包括在骑行模型中。晶体数据汇总于表1。x射线晶体学显示,不对称单元含有一半的配合阳离子[Fe2(OH)2(L)2]和一个高氯酸盐阴离子。1的络合阳离子[Fe2(OH)2(L)2]的分子结构如图2所示。所选键距(Å)和键角(°)见表2。1的配合物阳离子[Fe2(OH)2(L)2]具有中心对称的双(μ-羟基)双铁(II)金刚石核,与密切相关的五配位双(μ-羟基)双铁(II)配合物[Fe2(OH)22019©日本分析化学学会
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