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首页> 外文期刊>Inorganica Chimica Acta >SUBSTITUTION AND REDUCTION REACTIONS OF HALOGENATED DINUCLEAR GOLD YLIDE COMPLEXES WITH ANIONIC SULFUR REAGENTS - THE MOLECULAR STRUCTURES OF (AU-II[MU-(CH2)(2)PPH2])(2)(DTP)(2) (1), (AU-II[MU-(CH2)(2)PME2])(2)(MTP)(2) (3), ANTI-([AU-III-BR(MTP)][MU-
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SUBSTITUTION AND REDUCTION REACTIONS OF HALOGENATED DINUCLEAR GOLD YLIDE COMPLEXES WITH ANIONIC SULFUR REAGENTS - THE MOLECULAR STRUCTURES OF (AU-II[MU-(CH2)(2)PPH2])(2)(DTP)(2) (1), (AU-II[MU-(CH2)(2)PME2])(2)(MTP)(2) (3), ANTI-([AU-III-BR(MTP)][MU-

机译:卤化碘化金金氧化物配合物的还原反应-(AU-II [MU-(CH2)(2)PPH2])(2)(DTP)(2)(1),(AU)的分子结构-II [MU-(CH2)(2)PME2])(2)(MTP)(2)(3),抗-([AU-III-BR(MTP)] [MU-

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Substitution reactions and reductions with the salts of potentially bidentate ligands, Li(MTP) (MTP = methylenediphenylthiophosphinate) and K(DTP) (DTP = diphenyldithiophosphinate), have been carried out using {(AuBr2)-Br-III[mu-(CH2)(2)PR2]}(2) (R = Me, Ph), (Au-II[mu-(CH2)(2)PPh2]}(2)Br-2, and (Au-2(III)(mu-CH2)[mu-(CH2)(2)PPh2](2)}Br-2 as starting materials. Metathesis products are formed without evidence of formation of mixed-valent Au-I/Au-III metallacycles from the Au-II starting materials and metal-metal bonded Au-II products are observed from the dinuclear Au-III halides. The molecular structures of {Au[mu-(CH2)(2)PPh2]}(2)(DTP)(2) (1), {Au[mu-(CH2)(2)PMe2]}(2)(MTP)(2) (3), anti-{[AuBr(MTP)[mu-(CH2)(2)PPh2]}(2).C6H6 (4), {Au[mu-(CH2)(2)PPh2]}(2)(MTP)Br (5) and {Au-2(mu-CH2)[mu-(CH2)(2)PPh2](2)}(DTP)(2) (7) have been obtained by X-ray crystallography. These ligands both bond to different gold centers through only one functional group. A discussion is presented of the amplified structural trans influence as it relates to these compounds. Complex 1 crystallizes in the monoclinic space group P2(1)/c with Z=4, a=19.335(5), b=9.073(3), c=28.160(9) Angstrom, beta=91.75(2)degrees and V=4938(3) Angstrom(3). Complex 3 crystallizes in the triclinic space group P (1) over bar with Z=2, a=9.215(2), b=13.878(3), c=15.120(3) Angstrom, alpha=81.74(2), beta=76.31(2), gamma=89.29(2)degrees and V=1858.7(7) Angstrom(3). Complex 4 crystallizes in the monoclinic space group P2(1) with Z=2, a=13.189(2), b=16.742(3), c=14.386(2) Angstrom, beta=91.90(1)degrees and V=3174.9(8) Angstrom(3). Complex 5 crystallizes in the orthorhombic space group Pbca with Z=8, a=17.787(4), b=18.647(4), c=23.814(9) Angstrom and V=7898(4) Angstrom(3). Complex 7 crystallizes in the triclinic space group P (1) over bar with Z=2, a=12.975(2), b=13.551(2), c=14.533(3) Angstrom, alpha=85.14(1)degrees, beta=84.37(1), gamma=81.81(1)degrees and V=2510.4(8) Angstrom(3). (C) 1997 Elsevier Science S.A. [References: 56]
机译:使用{(AuBr2)-Br-III [mu-(CH2)进行了取代反应并用潜在的双齿配体Li(MTP)(MTP =亚甲基二苯基硫代次膦酸酯)盐还原)(2)PR2]}(2)(R = Me,Ph),(Au-II [mu-(CH2)(2)PPh2]}(2)Br-2和(Au-2(III)(以mu-CH2)[mu-(CH2)(2)PPh2](2)} Br-2为起始原料。生成复分解产物时,没有证据表明Au-I / Au-III混合金属会形成Au-I / Au-III金属环从双核Au-III卤化物中观察到II起始原料和金属-金属键合的Au-II产物{Au [mu-(CH2)(2)PPh2]}(2)(DTP)(2)的分子结构( 1),{Au [mu-(CH2)(2)PMe2]}(2)(MTP)(2)(3),抗{[AuBr(MTP)[mu-(CH2)(2)PPh2]} (2).C6H6(4),{Auμ(-CH2)(2)PPh2]}(2)(MTP)Br(5)和{Au-2(μ-CH2)[μ-(CH2)( 2)通过X射线晶体学方法获得了PPh2](2)}(DTP)(2)(7),这些配体都仅通过一个官能团与不同的金中心键合,讨论了扩增后的s与这些化合物有关的结构性反式影响。配合物1在单斜空间群P2(1)/ c中结晶,Z = 4,a = 19.335(5),b = 9.073(3),c = 28.160(9)埃,beta = 91.75(2)度和V = 4938(3)埃(3)。配合物3在棒上的三斜空间群P(1)中结晶,Z = 2,a = 9.215(2),b = 13.878(3),c = 15.120(3)埃,alpha = 81.74(2),beta = 76.31(2),gamma = 89.29(2)度,V = 1858.7(7)埃(3)。配合物4在Z = 2,a = 13.189(2),b = 16.742(3),c = 14.386(2)埃,β= 91.90(1)度和V的单斜空间群P2(1)/ n中结晶= 3174.9(8)埃(3)。配合物5在Z = 8,a = 17.787(4),b = 18.647(4),c = 23.814(9)埃和V = 7898(4)埃的正交晶体空间群Pbca中结晶。配合物7在Z = 2,a = 12.975(2),b = 13.551(2),c = 14.533(3)埃,alpha = 85.14(1)度,b的条形的三斜空间群P(1)中结晶= 84.37(1),γ= 81.81(1)度和V = 2510.4(8)埃(3)。 (C)1997 Elsevier Science S.A. [参考:56]

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