The synthesis and properties of binuclear pentacyanoiron(III)-μ-cyano- amminetetracyanoiron(III) [(C6H5)4P]4[(NC)5Fe---NC---Fe(CN)4NH3]·6H2O

The binuclear cyanoferrate, tetraphenylphosphonium pentacyanoiron(III)-μ-cyano-amminetetracyanoiron(III), [(C₆H₅)₄P]₄[Fe₂(CN)₁₀NH₃]⁴⁻, was synthesized by air oxidation of aqueous solutions of Na₃[Fe(CN)₅NH₃] · 3H₂O. Single crystal X-ray diffraction studies show the compound to contain the binuclear, cyano-bridged anion, [(NC)₅Fe---NC---Fe(CN)₄NH₃]⁴⁻. This compound is structurally identical to the one prepared by A. Ludi et al., [Inorg. Chim. Acta, 34, 113 (1979)], with the exception that [Fe(CN)₆]³⁻ is not required for the synthesis of this compound. The Fe(III) atoms are antiferromagnetically coupled through the CN⁻ bridge, as shown by a maximum in the magnetic susceptibility at 50 K. The electronic and IR spectra of the complex in the solid state and in solution are discussed.     

Metal-penicillamine interactions. Part 1. Preparation and crystal structure of a 1:1 complex of mercuric chloride with d-penicillamine, 2[μ3-Cl){HgSC(CH3)2CH(NH3)COO}3·3(μ2-Cl)· 2(H3O)·(H2O·Cl)3

A 1:1 complex of mercuric chloride with D-peniccillamine has been isolated and characterised as 2[(μ₃-Cl){HgSC(CH₃)₂CH(NH₃)COO}3]·3(μ₂-Cl)·2(H₃O)·(H₂O·Cl)₃. The compound crystallises in cubic space group P4₁32, with a = 18.679(5) Å and Z = 4. The structure, refined to R_F = 0.086 for 443 observed Mo-Kα diffractometer data, features a triply bridging chloride ion linking three equivalent [HgSC(CH₃)₂CH(NH₃)COO]⁺ units [Hg-Cl = 2.37(1) Å, Hg-Cl-Hg′ = 98.5(9)°]. The carboxylate groups of a pair of adjacent penicillamine ligands are strongly linked via a symmetrical O?H?O hydrogen bond of length 2.24(8) Å, and neighboring pyramidal trinuclear [μ₃-Cl){HgSC(CH₃)₂CH(NH₃)-COO}₃]²⁺ moieties are further connected by symmetrical chloride bridges [Hg-Cl = 3.06(2) Å; HgClHg′' = 79.6(7)°] to form a three-dimensional network. The voids in the lattice are filled by hydronium ions and novel planar cyclic hydrogen-bonded (H₂O·Cl^?)₃ rings of edge O-H?Cl = 2.46(4) Å.     

The crystal and molecular structure of [Co(NH3)5PO4]·3H2O,a Na+-K+ ATPase probe

The title compound, Co(NH₃)₅PO₄, prepared by a modified literature procedure, was used to study the inhibition of Na⁺-K⁺ ATPase and to serve as a structural model for ML₄(nucleotide) complexes. The structure was determined by single crystal X-ray diffraction techniques. The crystals are monoclinic, space group P2₁/n, a = 8.638(3), b = 14.517(2), c = 9.145(2) Å, and β = 112.71(2)°. The structure, solved by the heavy atom method to an R value of 3.3% for 1924 reflections, consists of a slightly distorted octahedron with the cobalt bound to the five amines and a monodentate phosphate. Solution structural data is taken from ³¹P NMR measurements. From comparison with other metal phosphate complexes it is concluded that multiple monodentate coordination of a di- or triphosphate closely resembles the coordination of a monophosphate This is based on the similarity of the MO bond angle which is 129.6° in the present example.     

Synthesis and optical study of Ln(III)(tetramethylurea)(AsF6)3 (Ln = LaLu,Y) and crystal structure for Ln = Eu [Eu(TMU)6(AsF6)3]

The fluorescence spectrum of Eu³⁺ recorded at a temperature of 12 K between 14.000 and 20.000 cm^?1 shows transitions from the excited stare ⁵D_o to the Stark components of the lowest ⁷F_j. The optical analysis suggests an octahedral site symmetry for the rare earth ion which is confirmed by the three-dimensional crystal determination. The highly disordered crystal structure refined in space group F23 to an R-factor of 13.2%. Both the europium and the arsenic ions are located in special positions of point symmetry 23(T). The EuO bond distance is 2.28 Å. The value of the B_q^k parameters was determined.     

Caffeine complexes of platinum(II): crystal structure of cis-[Pt(C8H10N4O2)2Cl2]·0.4H2O

The preparations are reported of cis[Pt(caffeine)₂Cl₂]·0.4H₂O, Pd(caffeine)₂Cl₂, the methanol adduct of the previously known compound K[Pt(caffeine)Cl₃], and Pt(caffeine)(cytidine)Cl₂. Crystals of [Pt(caffeine)₂Cl₂]·0.4H₂O are tetragonal P4₂/n with a = 13.156(2) 0?, c = 12.734(2) 0?, Z = 4. The structure was refined on 945 reflections to R = 0.025. The molecule is cis with a crystallographic two-fold axis bisecting the ClPtCl and NPtN angles. The Pt is square planar with PtN and PtCl bonds of 2.029(5) Å and 2.271(2) Å respectively. There is a 5.4° dihedral angle between the imidazole and pyrimidine rings, and the imidazole ring is rotated away from the coordination plane by 86.4°. Symmetry related caffeine units pack parallel to each other with an inter-ring separation of 3.45 Å.     

Synthesis and characterization of uranyl(VI) and thorium(IV) complexes with phosphine oxides. The crystal structure of UO2(NO3)2(NO2-C6H4Ph2PO)2

Uranyl(VI) and thorium(IV) complexes of the type UO₂(NO₃)₂(L¹)₂, UO₂(NO₃)₂(L²)₂, UO₂(CH₃COO)₂L¹, UO₂(CH₃COO)₂L², Th(NO₃)₄(L¹)₂ and Th(NO₃)₄(L²)₂ (L¹ = (2-nitro)phenyl-bis-phenyl phosphine oxide, L² = triferrocenylphosphine oxide) are reported, together with their physico-chemical properties.The crystal structure of UO₂(NO₃)₂(L¹)₂ is also reported. The crystals are monoclinic, space group P2₁/n with a = 17.78(1), b = 13.88(1), c = 17.37(1) Å, β = 114.8(1)° for Z = 4. The uranium atom is 8-coordinated, the uranyl(VI) group being equatorially surrounded by an irregular hexagon of six oxygen atoms from two trans neutral ligands and two nitrato groups.     

X-ray crystal Structure of [1,2-bis(diphenylphosphino)ethane]bis(3,5-dimethylpyrazole-N)platinum(II) tetrafluoroborate dichloromethane solvate, [(Ph2PCH2CH2PPh2)Pt(3,4-Me2pzH)2][BF4]2·CH2Cl2

The crystal structure of the compound [(Ph₂PCH₂CH₂PPh₂)Pt(3,5-Me₂pzH)₂][BF₄]₂·CH₂Cl₂ has shown that the ligands around the Pt atom are approximately in a square planar coordination, whereas the pyrazole rings point roughly in the same direction, away from the coordination plane. This unusual conformation is probably due to the hydrogen bonds with fluorine atoms of the BF₄^? anion. Bond distances and angles are compared with those in other pyrazole complexes.     

Crystal structure of nonaquasamarium(III)bromide-l,4-dioxan adduct (1:3:2), Sm(H2O)9·Br3(C4H8O2)2

The title compound has been found to consist of tricapped trigonal prismatic Sm(H₂O)₉³⁺ ions in C_2v symmetry, sandwiched between expanded ‘close packed’ layers of bromide ions, with 1,4-dioxan molecules in chair conformation hydrogen bonding between the equatorial water molecules of adjacent cations.Orthorhombic, Amm2, a = 8.010(3), b = 19.848(4), c = 7.388(3) Å, R = 0.022 for 992 unique reflexions.     

Metal complexes of virus inhibitors. Part III. Coordination properties of 1-n-propyl-2-α-hydroxybenzylbenzimidazole and the X-ray crystal structure of Ni(C17H18N2O)2(C17H17N2O)1(ClO4)1

Complexes are described of Cobalt(II) and Nickel- (II) salts with the title ligand L. The X-ray crystal structure is described of NiL₂L′₁(ClO₄)₁. One ligand molecule (L′) in this complex is deprotonated and the structure involves strongly hydrogen bonded dimers with OHO bonds = 2.56 Å and 2.62 Å and a NiNi bond = 4.77 Å. The corresponding Cobalt complex is thought to be similar but no other compounds containing L′ were obtained.     

Effects of phenoxide ligation: Synthesis and characterization of the [Mo2Fe6S8(SEt)3(OPh)6]3− ion

Reaction of phenol with an alkylthiolate-ligated double cubane complex effects phenolate substitution at the terminal positions; the product can be isolated as its benzyltriethylammonium salt. The phenolate cluster possesses unaltered magnetic properties and blue shifted optical spectra, and undergoes ligand exchange reactions with electrophiles as expected for terminal phenolate substitution. Increased isotropic proton NMR shifts and large negative shifts in corresponding first and second reduction potentials are consistent with increased donation of electron density to the [MoFe₃S₄]³⁺ cores for phenolate versus thiophenolate terminal ligands to iron. Similar behavior has been observed for Fe₄S₄, Fe₂S₂ and MoS₂Fe systems.     

Large transition metal clusters, 2. Synthesis and properties of Rh55[P(tert-Bu)3]12Cl20

The reaction of a mixture of [(tert-Bu)₃P]₂Rh(H₂)Cl and [(tert-Bu)₃P]₂Rh(CO)Cl with gaseous diborane in benzene solutions at 50–60°C leads to a cluster whose formula is assumed to be Rh₅₅[P(tert-Bu)₃]₁₂Cl₂₀, due to analytical, spectroscopic, and chemical results. The number 55 is one of the ‘magic numbers’ of full shell cuboctahedrons or icosahedrons. ³¹P, and ¹⁰³Rh N.M.R. investigations assign a high mobility either of the ligands or of the rhodium atoms or of both.The coordinatively unsaturated surface of the cluster whose structure is supposed to be cuboctahedral, allows gaseous carbon monoxide to be adsorbed irreversibly, even if the cluster is in the solid state. The CO groups are coordinated exclusively in a terminal manner.     

Reaction of PtOH complexes with CO2: synthesis and X-ray structure of (PBz3)4Pt2(Ph)2(η1,η1,μ-CO3)·(toluene)

The reaction of (diphoe)Pt(CH₂CN)(OH) and trans-(PBz₃)₂Pt(Ph)(OH) with CO₂ is reported as producing dimeric, bridged carbonato complexes of the type: P₄Pt₂(R)₂(CO₃). The crystal and molecular structure of (PBz₃)₄Pt₂(Ph)₂(μ-CO₃)·(toluene) is also reported, showing η¹, η¹ bonding. The reaction is recognized to proceed in a stepwise fashion through bicarbonato intermediates.     

Molecular and crystal structure of hexaaquamanganese(II) bis{bis(N-salicylideneglycinato)manganate(III)} dihydrate, [MnII(H2O)6][MnIII(Sal = Gly)2]2·2H2O

The crystal structure of hexaaquamanganese(II) bis{bis(N-salicylideneglycinato)manganate(III)} dihydrate has been determined by X-ray analysis. The complex crystallizes in the monoclinic space group I2|a, with unit-cell dimensions a = 37.431(5), b = 12.100(1), c = 9.448(1) Å, β = 92.31(1)°. The structure was deduced by the direct method and refined by the block-diagonal least-squares technique to a final R value of 0.062 for 3904 observed reflections. The Mn(II) is octahedrally ligated by six water molecules, while Mn(III) is octahedrally chelated by two salicylideneglycinate ligands, of which one is nearly planar and the other considerably bent.It was discovered that the crystal is, as a whole, of a ‘sandwich’ structure made of one central sheet containing hexaaquamanganese(II)'s and the water molecules of crystallization, and two outside sheets containing bis(N-salicylideneglycinato)manganate(III)'s.