Metal complexes of polycyclic tertiary amines. Part VII. Preparation and crystal structure determination of polymeric hexamethylenetetramine—mercury(II) thiocyanate (12), (CH2)6N4·2Hg(SCN)2

A 1:2 complex of hexamethylenetetramine with mercury(II) thiocyanate, (CH₂)₆N₄·2Hg(SCN)₂, was prepared and shown by X-ray crystallography to be polymeric. The mixed-ligand complex crystallizes in the space group P2₁/m, with a = 6.059(2), b = 19.710(5), c = 7.895(2) Å, β = 105.63(2)°, and Z = 2. The structure was refined to R_F = 0.060 for 1634 observed MoKα diffractometer data. Mercury(II) atoms in a row are linked pairwise by two thiocyanato groups in an end-to-end bridging mode, to give an infinite chain running in the a direction. Two neighboring chains are further laterally connected, successively by bidentate organic ligands which lie on a crystallographic mirror plane. The coordination geometry about Hg(II) is distorted tetragonal pyramidal, the metal atom binding strongly to two S atoms and a tertiary amino N atom (apex), and weakly to two thiocyanato N atoms.     

Preparation,structure and spectroscopic studies of the palladium mercaptides Pd8(S-nPr)16 and Pd6(S-nPr)12

Various palladium salts react with n-propane thiol to form a mixture of the cyclic mercaptides Pd₈(S-nPr)₁₆ (I) and the known Pd₆(S-nPr)₁₂ (II). I is described as an octagonal toroid, containing a planar ring of palladium atoms, each being bridged by four mercapto groups in approximately square planar geometry. The pendant n-propyl groups radiate outward in approximately axial and equatorial orientations with respect to the ring, which was also observed in solution by ¹H and ¹³C NMR. Crystal data: space group C2/c, a=22.251(15), b=27.623(6), c=14.621(17) Å, β=116.35°(4), V=8053(4) ų. Least-squares refinement based on 3103 observed reflections led to an R value of 0.078. I and II failed to complex any appropriate guest species, as evidenced by the UV-Vis spectra. I was found to have a reversible oxidation wave at E/2= 0.77 V, and a irreversible oxidation wave of 1.09 V. II displayed two irreversible peak potentials at 0.77 and 1.09 V. In each case, the waves were one electron processes, in which the reversibility was not enhanced at low temperatures.     

The synthesis and structural characterization of (2-pyridyldiphenylphosphine oxide)platinum(IV)tetrabromide. A chelating phosphine oxide with a substantially bent PtOP angle

The complex (pyPh₂PO)PtBr₄ (pyPh₂PO is 2-pyridyldiphenylphosphine oxide) has been synthesized by three different pathways, and its structure has been established by X-ray crystallography. C₁₇H₁₄Br₄NOPPt crystallizes in the space group P2₁/c (no. 14) with cell dimensions (at 140 K) of a = 13.696(7), b= 16.653(5), c = 17.612(7) Å, β = 92.23(4)°, Z = 8 and V = 3993(3) ų. The structure was refined by block-cascade least-squares to a conventional R value of 0.048 using 3647 significant data. The structure involves a six-coordinate platinum((IV) ion with the chelated ligand bound through its nitrogen and oxygen atoms. The two crystallography independent molecules in the asymmetric unit have very similar dimensions. To our knowledge this is the first reported structure of a chelating phosphine oxide. The PtOP angles within the rings are 114.4(6)° and 117.4(6)°.     

Complexes with asymmetric tetraamine ligands. IV. Cobalt(III) complexes containing two chiral ligands. Structure of Λ-cis-β2-(SS)-[S-alaninato-2S, 5R, 9S-trimethyltriencobalt(III)] perchlorate hydrate

Complexes of cobalt(III) with two optically active ligands have been prepared and characterized. One of the ligands was an amino acid (S-alanine or S-isoleucine) and the other was a methyl-substituted derivative of triethylenetetramine (trien), either 2S,5R,9S-Me₃trien or 2S,5S,9S-Me₃trien. The amino acid complexes were prepared from the cis-α or cis-β dichloro complexes of Co(III) with the appropriate trien derivative. The crystal and molecular structure of one of these complexes, with S-alanine and 2S,5R, 9S-Me₃trien, is reported.Since the cobalt(III) complex contains two chiral ligands of known absolute configuration, the overall configuration of the complex could be assigned unambiguously as the Λ isomer. Although one of the three chelate rings of the chiral tetraamine deviates from ideal symmetric skew geometry, all three methyl groups are in equatorial positions. Both secondary nitrogen atoms have S configuration, and the methyl group on the central chelate ring of the tetraamine is adjacent to the ‘flat’ rather than the ‘apical’ secondary N. The alanine anion is coordinated with its nitrogen trans to a secondary nitrogen and its oxygen trans to a primary nitrogen of the tetraamine, to give the β₂ geometric isomer. Both perchlorate anions are disordered.Crystallographic data for the title complex are as follows: C₁₂H₃₀O₁₁N₅Cl₂Co, M_r=550.23, tetragonal, P4₃2₁2, Z=8, a=9.166(5), c=53.51(4) Å, V=4495.4 ų, D_m=1.63(1), D_c=1.657 g cm⁻³, CuKα, λ=1.54178 Å, μ(CuKα)=90.89 cm⁻¹, F(000)=2288, room temperature, final R=[Σ(6F_o| −|F_c|)/Σ|F_o|]=O.089 for 2620 unique, observed reflections.     

Synthesis,structural characterization,and properties of the organothorium alkylthiolate complex [(CH3)5C5]2Th(SCH2CH2CH3)2

This contribution reports the synthesis and characterization of the organothorium alkylthiolate complex [(CH₃)₅C₅]₂Th(SCH₂CH₂CH₃)₂. This compound crystallizes in the monoclinic space group C2/c (#15) with four molecules in a cell of dimensions a=19.066(2), b=11.603(1), c=16.379(2) Å, and β=130.08(1)°. Least-squares refinement led to a value for the conventional R index (on F_o) of 0.040 for 132 variables and 2030 observations having F_o²⩾3σ(F_o²). The molecular structure consists of an unexceptional ‘bent sandwich’ [(CH₃)₅C₅]₂Th fragment coordinated to two n-propylthiolate ligands. The ThS bond distance is 2.718(3) Å; the SC(α) distance, 1.78(2) Å; the ThSC(α) angle, 108.3(5)°; and the SThS′ angle, 102.5(2)°. Contrasts are drawn with the structures of analogous actinide alkoxides     

Isolation of [{HB(Me2pz)3}MoO2(OC6H4S)]2, a binuclear Mo(VI) complex containing a disulfide bond

Aerial recrystallization of the mononuclear molybdenum(V) complex {HB(Me₂pz)₃}MoO(OC₆H₄-o-S) produced the novel binuclear Mo(VI) complex [{HB(Me₂pz)₃}MoO₂(OC₆H₄- o-S)]₂ which contains a disulfide bond. The dimer crystallizes as the dioxane solvate in the space group C2/c with cell parameters a=23.46(2), b=11.100(4), c=21.571(8) Å, β=104.23(4)°, Z=4. Final R_w=0.062 (2236 reflections with F_o>3σ(F_o), 301 variable parameters). The dimer contains two crystallographically identical distorted octahedral MoO₂²⁺ centers. One face of each octahedron is occupied by two oxo ligands and a phenolate oxygen atom; the opposite face is occupied by three nitrogens of the HB(Me₂pz)₃⁻ ligand. The two Mo(VI) centers of the dimers are linked by a disulfide bond formed upon oxidation of the 2-mercaptophenolate ligand of the original molybdenum(V) compound.     

Coordination modes of polydentate ligands. 4. The crystal and molecular structure of an oxo-bridged iron(III) complex containing a pentadentate imino-alkoxy ligand

In the presence of Fe³⁺, template condensation of the fluorinated keto-alcohol CH₃C(O)CH₂C- (CF₃)₂OH with the triamine CH₃C(CH₂NH₂)₃ leads to two products: a fully condensed, imino-alkoxy, iron(III) complex, Fe{CH₃C[CH₂NC(CH₃)CH₂C(CF₃)₂O]₃}, and a partially condensed iron(III) complex, O{FeCH₃C[CH₂NC(CH₃)CH₂C(CF₃)₂O]₂(CH₂NH₂)}₂, in which two six-coordinate iron(III) centers are linked by an oxide ion. A complete crystal and molecular structure determination of the latter has been made.Crystals are monoclinic, space group C2/c, a= 13.886(4); b=23.206(5); c=15.241(4) Å; β= 106.55(2)°; V=4708 ų; Z=4. Least-squares refinement on F of 322 variables using 2627 observations converged at a conventional agreement factor of 3.8%. The Fe to bridging oxide distance is 1.811(1) Å, the FeFe distance 3.468 Å, and the FeOFe angle 146.6(2)°. A comparison is made between this structure and those of natural hemerythrin systems.     

Crystal structure of a new form of copper(II)—inosine 5′-monophosphate—2,2′-dipyridylamine ternary complex

Two crystalline forms of the [Cu(II) (IMP) (DPA) (H₂O)]₂·nH₂O (IMP=inosine 5′-monophosphate, DPA=2,2′-dipyridylamine) complex were obtained from aqueous solution at pH=6.2. The crystals of the two forms belong to the monoclinic system, space group P2₁. The cell parameters are: a=9.445(2), b=33.902(4), c=7.802(2) Å, β=90.48(2)°, Z= 2, D_c=1.69g cm⁻³ and μ(Mo Kα) = 10.49cm⁻¹ (form α, n=4), and a=7.828(2), b=18.552(3), c=17.378(3) Å, β=91.16(2)°, Z=2, D_c=1.66 g cm⁻³, μ(Mo Kα) = 10.40 cm⁻¹ (form β, n=3.62). Bau and coworkers reported the preparation of form α by vapor diffusion of CH₃CN into aqueous solution containing Cu(NO₃)₂, Na₂IMP and DPA in a 1:1:1 molar ratio and the analysis of the compound by single crystal X-ray diffraction [1].Intensities for 3412 reflections were collected from a crystal of form β in the present work. Graphite-monochromatized Mo Kα radiation was employed. The structure was refined to final R and R_w values of 0.1000 and 0.1115 respectively. The dimeric units contain two copper ions in square-pyramidal coordination polyhedra. Each polyhedron consists of two nitrogen atoms of DPA, two oxygen atoms from two phosphate groups and a water molecule in the axial position. A statistical disorder was found in a nucleotide moiety of the dimer. Two sets of atomic positions corresponding to the purine system were refined with site occupation factors of 0.62(1) and 0.38(1) respectively. Also the ribose ring shows a disorder with two possible conformations. The puckering mode of the prevailing conformation is C(3′)-endo. In the other nucleotide molecule of the dimer the furanose puckering mode is C(3′)-endo. The rotation around the glycosyl linkages can be described as ‘anti’ in the structure of form β. The C(4)N(9)C(1′)O(4′) torsion angle values are −97(2) and −94(3)° for the disordered nucleotide molecule and +91(2)^o for the other nucleotide moiety. Strong intermolecular DPADPA and purine-purine stacking interactions stabilize the crystal lattice. The differences on the nucleotide conformation between the structure of form α and form β can probably be ascribed to differences in the hydrogen bonds and stacking interactions.     

Intramolecular hydrogen bonding: synthesis and crystal structure of nickel(II) and copper(II) complexes of a tetradentate amine oxime

In the reaction of the tetradentate ligand 3,3′-(1,4- butanediyldiamino) bis (3-methyl-2-butanone)-dioxime (BnAO) with nickel(II) and copper(II), the monomeric [Ni(BnAO-H)]I·H₂O and a mixed monomer/dimer salt [Cu(BnAO-H)H₂O]₂[(Cu(BnAO-H))₂](ClO₄)₄, respectively, are formed, and all complexes have an intramolecular hydrogen bond between cis oxime groups. The OHO bonds give the characteristic infrared absorptions as well as the downfield proton-NMR signal (Ni complex). [Ni(BnAO-H)]I·H₂O crystallizes in space group P2₁/a with a=13.511(2), b=10.599(2), c=14.096(2) Å, β=97.52°, Z=4 and D_c=1.623 g/cm³. The structure was solved by Patterson and Fourier methods and refined by full-matrix least-squares techniques to a final R of 0.021 for 2124 reflections with I 2σ(I). The nickel(II) atom in the complex has slightly distorted square planar geometry with an intramolecular O···O contact of 2.417(7) Å. The copper(II) complex crystallizes in space group P2₁/c with a =13.425(2), b=21.446(3), c=14.349(4) Å, β= 104.4(5)°, Z=8 (monomers) and D_c=1.485 g/cm³. The final R value for this complex was 0.053 for 3033 reflections with I 2σ(I). This structure contains a monomeric [Cu(BnAO-H)H₂O]⁺ ion and a dimeric [(Cu(BnAO-H))₂]²⁺ ion, having intramolecular O···O hydrogen bonds of 2.421(5) and 2.531(5) Å, respectively. The copper(II) ions have square-pyramidal coordination with the axial positions occupied by an oxygen of the water of hydration in the monomer and by an oxime oxygen atom in the dimer. A center of symmetry relates the two halves of the dimer. The copper atom in each case is out of the plane of the four nitrogen atoms toward the axial site. The copper(II) complex is unusual in that the crystal contains both a monomer and a dimer.     

Structural chemistry of dicyclopentadienidehalides of lanthanides Part 4. Erbiumdicyclopentadienidechloride [Er(C5 H5)2Cl]2

The crystal structure of erbiumdicyclopentadienidechloride [Er(C₅H₅)₂Cl]₂ has been determined from X-ray diffraction data. The compound crystallizes in space group P2₁/c with a=11.056(3), b= 8.015(1), c=12.154(3) Å, β=110.28(2)°, V= 1010.2(7) ų, D_c=2.189 g cm⁻³ and Z=2 dimers. The structure has been refined by full-matrix least- squares techniques to a conventional R factor of 0.027 for 2042 reflections (with I > 2σ(I)). In the unit cell centrosymmetric dimers of orte type exist with bridging chlorine atoms and C₅H₅ groups bonded in η⁵-fashion to the metal (mean ErC 2.59 Å). The [Er(C₅H₅)₂Cl]₂-type is compared to the [Sc(C₅H₅)₂Cl]₂-type structure which is realized in several dicyclopentadienidebromides of the lanthanides.     

Studies on the metalamide bond. XIX. A comparison of molecular distortions in the crystal structures of [N,N′-bis(2′-pyridinecarboxamido)-1,2-benzene] nickel(II) with its 6′-methyl-substituted Analogue

[N,N′-Bis(pyridine-2′-carboxamide)-1,2-benzene]nickel(II) monohydrate, C₁₈H₁₄N₄O₃Ni, crystallizes in the monoclinic space group C2/c with a = 14.240(4), b = 20.071(3), c = 16.275(2) Å,β = 97.25(2)^o, Z = 12 and its crystal structure has been refined to R = 0.033 for 3597 diffractometer data. [N,N′-Bis(6′-methylpyridine-2′-carboxamide)-1,2- benzene]nickel(II) monohydrate, C₂₀H₁₈N₄O₃Ni, crystallizes in the orthorhombic space group Pbca with a = 10.14(2) b = 17.12(2), c= 21.11(5) Å, Z = 8 and its crystal structure has been refined to R = 0.088 for 1979 photographic data. In both structures the nickel atoms are four coordinate with the ligands acting as N₄ tetradentates. For the first mentioned complex the structure consists of two independent molecules one of which is constrained, by space group requirements, to have C₂ (2) symmetry. These two molecules are closely similar and both exhibit nearly planar molecular arrangements with a small tetrahedral twist of up to 4^o at the nickel atoms. In the second complex the methyl substitution at the 6′-pyridyl positions causes severe steric strain in the molecule which gives rise to a 14.9^o tetrahedral twist at the nickel atom and approximately 25% pyramidal distortion at both amide nitrogen atoms. The resulting methyl-methyl separation of 3.26(1) Å is considerably less than the sum of the van der Waals radii for two such groups. This close separation leads to carbon-acid character for the methyl group protons which are shown to exchange for deuterons in NMR studies. A full analysis of the out-of-plane distortions and torsion angles of the two structures and a comparison with the previously reported analogous copper structures are made.     

f-Element/crown ether complexes. 16. Synthesis,crystallization and crystal structure of [Dy(OH2)8]Cl3·18-crown-6·4H2O

When crystals of [Dy(OH₂)₇(OHMe)] [DyCl(OH₂)₂(18- crown-6)]₂Cl₇·2H₂O [1] are allowed to warm from 5 °C to ambient temperature (22 °C) under the original solvent mixture (1:3 CH₃OH: CH₃CN), they redissolve and the title complex can be isolated by slow evaporation of the resulting solution. The crystal structure of this complex, [Dy(OH₂)₈]Cl₃·18-crown-₆·4H₂O, has been determined. It crystallizes in the monoclinic space group, P2₁/c, with a = 10.395(1), b = 18.684(1), c = 16.259- (3) Å, β= 102.56(1)°, and D_calc = 1.61 g cm⁻³ for Z = 4. A final conventional R value of 0.041 was obtained by least-squares refinement using 3453 independent observed [F_o⩾5σ(F_o)] reflections. The [Dy(OH₂)₈]³⁺ cations and crown ether molecules are hydrogen bonded in a polymeric chain with the crown molecules separating the cations and a total of seven DyOH₂···O(crown ether) hydrogen bonds. The chains are connected by a hydrogen bonding network consisting of the cations, chloride ions, and uncoordinated water molecules. The geometry of the cation is best described as a bicapped trigonal prism with distortions on the reaction pathway toward dodecahedral symmetry. The two capping atoms average 2.41(1) Å from Dy, the remaining DyO distances average 2.38(2) Å. The 18-crown-6 molecule has the D_3d conformation normally observed except for a distortion of one OCCO unit containing the oxygen atom accepting two hydrogen bonds.     

Synthetic,structural and molecular mechanics investigation of some mono- and dinuclear copper(I) and copper(II) complexes of macrocyclic and related acyclic ligands

A number of di-Cu(II) complexes of the new tetraimine macrocyclic ligand derived from the Schiff base [2 + 2] condensation of 2,5-diformylfuran with 3-oxa-pentane-1,5-diamine have been prepared by methods which employ the heavier alkaline earth metal ions as templates followed by transmetallation. The complexes have been characterised by spectroscopic and other physical methods. Several of the di-Cu(I) complexes react reversibly with CO in solution and irreversibly with O₂ in a 4:1 Cu:O₂ stoicheiometry. Depending on conditions the oxidation product may be a dinuclear Cu(II) complex of the macrocycle or a mononuclear Cu(II) complex of a new ring-opened ligand. The single crystal X-ray structure of the latter complex has been determined.[CuL](BPh₄)₂ is monoclinic, space group C2/c with a=20.12(1), b=14.48(1), c=22.37(2) Å, β=110.1(1)°, Z=4. 1389 Independent reflections above background were measured on a diffractometer and the structure refined to R=0.108. The cation has imposed C₂ symmetry. The copper atom is bonded to four nitrogen atoms in the ‘outer’ compartment of the ligand with unique CuN distances of 2.050(17) and 1.977(17) Å. The geometry of the copper atom is intermediate between square planar and tetrahedral with an angle of 39.7° between two CuN₂ planes. Molecular mechanics calculations show that this distortion is due to steric effects.     

Crystal structure of bis(N-methylethylenediammonium) hexabromodicuprate(I)

The crystal structure of the title compound (C₃H₁₂N₂)₂Cu₂Br₆, is monoclinic, space group P2₁/n, with lattice constants a=8.222(2), b=11.214(2), c=10.646(2) Å, β=91.97(1)° and V=981.0(3) ų. The structure contains anionic Cu₂Br₆²⁻ dimers and N-methylethylenediammonium (henceforth MEDA²⁺) cations. The centrosymmetric dimer units are composed of two edge-shared CuBr₄ tetrahedra, with bridging Cu-Br distances 0.08 Å longer than the terminal distances. A pair of MEDA²⁺ cations hydrogen bond to each dimer via two of the -NH₃⁺ hydrogen atoms and one of the -NH₂⁺- hydrogen atoms. Additional hydrogen bonding between the cations and anions tie the structure together in a complex supramolecular network.     

Synthesis, 95Mo NMR spectra and x-ray crystal structure of MoO2(C14H11N2O)2(C2H5H)1 and Mo2O5(C14H11N2O)2(C2H5OH)1(H2O)1

The crystal structures and ⁹⁵Mo NMR spectra of two complexes formed between 2-α-hydroxybenzyl- benzimidazole (C₆H₅·CHOH·C₇H₅N₂=HOBB), as its sodium salt, and MoO₂Cl₂ are reported. [MoO₂- (OBB)₂]·EtOH (OBB=deprotonated HOBB) crystallizes in space group P2₁/n, with a=12.8441(7), b=15.917(3), c=13.314(2) Å, β=97.163(8)° and Z =4. The structure was determined from 3096 observed reflections and refined to a final R value of 0.030. The complex is a six coordinate cis-dioxo species, the ⁹⁵Mo spectrum of which shows a single sharp peak at 56 ppm in dimethylformamide (DMF). The second complex, [Mo₂O₅(OBB)₂]·EtOH·H₂O, crystallizes in space group Pbca, with a=22.482(4), b=16.442(3), c=18.407(3) Å and Z=8. The structure was determined from 2936 observed reflections and refined to a final R value of 0.061. The complex is a binuclear doubly bridged species in which one metal atom is six coordinate while the other is five coordinate. Its ⁹⁵Mo NMR spectrum in DMF shows a sharp peak at 124 ppm and a second broader much weaker peak at 51 ppm.     

Crystal structure and magnetic measurements of [Cr(en)3] [ZnCl4]Cl

The compound [Cr(en)₃][ZnCl₄]Cl has been synthesized by reaction of CrCl₃·6H₂O, Zn and [Cr(en)₃]₂(SO₄)₃ in HCl. Its molecular and crystalline structure was determined by X-ray diffraction methods, being monoclinic, P2₁/c, a=21.215(3), b=12.532(2), c=13.707(2) Å, β=95.21°, V= 3629(2) ų, D_x=1.738g cm⁻³, MW=474.9, Z= 8, F(000)=1928, λ(Mo Kα)=0.71069 Å, μ(Mo Kα)= 27.04 cm⁻¹, 288 K. No significant exchange interactions between Cr(III) cations in the crystalline lattice were found. Curie-Weiss behavior was found in the three directions tested (g₁=2.06±0.02,g₂= 2.08±0.02,g₃=2.09±0.01), T=1.2-1.4 K.     

The structure of a dinuclear silver(I) complex: Ag2[S2C2(CN)2] [P(C6H5)3]4

The crystal structure of the dimeric Ag maleonitriledithiolate complex, Ag₂[S₂C₂(CN)₂] [P(C₆- H₅)₃]₄ (1), has been performed. Complex 1 crystallizes in the space group P2₁/c with a = 12.2898(77), b = 23.8325(91), c = 23.1790(118) Å, β = 101.315(43)° and Z = 4. Refinement using 3253 reflections with F_o²>3σ(F_o²) yielded R = 0.0662, R_w= 0.0669. The most interesting aspect of the structure is the strong bridging interaction of the chelating maleonitriledithiolate ligand with the second Ag center, where a Ag-S distance of 2.478 Å is observed. The residual bonding capability of the sulfur atoms in the chelating anion [Ag(S₂C₂(CN)₂)(PPh₃)₂]⁻ for [Ag(PPh₃)₂]⁺ is demonstrated.     

Polynuclear complexes of 3d and 4f transition metals. Synthesis and structure of lanthanide(III) adducts with copper and nickel Schiff's base complexes as ligands

The synthesis and characterization of trinuclear complexes containing both 3d and 4f metal ions is presented: Ln(NO₃)₃[Cu(salpn)]₂ (Ln = Eu, Dy) and Ln(NO₃)₃ [Ni(salpn)(pn)]₂ ·2H₂O (Ln = La-Lu). The crystal and molecular structure of Ce(NO₃)_3^? [Cu(salpn)]₂·CH₃NO₂ has been determined by single-crystal X-ray diffraction. The complex forms orthorhombic crystals, space group Fdd2 (ITC No 43), a = 19.479(2), b = 26.980(2), c = 30.698(2) Å, Z = 16. The structure was solved by Patterson and Fourier techniques and refined by least squares to a final conventional R_F = 0.045 (R_w= 0.052). The Ce(III) ion is 10-coordinate, with an irregular coordination polyhedron. This polyhedron may be best described as a trigonal bipyramidal arrangement of five bidentate ligands, two axial nitrates, one equatorial nitrate and two equatorial [Cu- (salpn)] ligands. The average CeO bond length is 2.53(10) Å. The two Cu(II) ions form distorted octahedral CuN₂O₄ and square-based pyramidal CuN₂O₃ chromophores, respectively. A molecule of nitromethane links pairs of complex molecules, related by a twofold axis, into dimers. Cell parameters could also be determined for Sm(NO₃)₃[Cu- (salpn)]₂: a = 10.309(2), b = 14.768(2), c = 10.998(1) Å. The nickel complexes form an isomorphous series and their structure is discussed on the basis of spectroscopic data and of comparison with the copper complexes.     

Synthesis and coordination chemistry of tripodal dialkyl[1,2-bis(diethylcarbamoyl)ethyl]phosphonates with lanthanide nitrates

Trifunctional dialkyl [1,2-bis(diethylcarbamoyl)- ethyl] phosphonates, (RO)₂P(O)CH[C(O)N(C₂H₅)₂]- [CH₂C(O)N(C₂H₅)₂] R  CH₃, C₂H₅, i-C₃H₇, n-C₆H₁₃ were prepared from the respective sodium salts, Na[(RO)₂P(O)CHC(O)N(C₂H₅)₂] and N,N- diethylchloroacetamide, and they were characterized by elemental analysis, mass, infrared and NMR spectroscopy. The molecular structure of (i-C₃H₇O)₂- P(O)CH[C(O)N(C₂H₅)₂][CH₂C(O)N(C₂H₅)₂] was determined by single crystal X-ray diffraction analysis and found to crystallize in the monoclinic space group P2₁/c with a=15.589(6), b=9.783(4), c= 16.283(7) Å, β = 110.90(3)°, Z = 4 and V= 2320(2) ų. The structure was solved by direct methods and blocked least-squares refinement converged with Rf = 5.7% and R_wF= 4.4% on 2266 unique data with F>4σ(F). Important bond distances include PO 1.459(3) Å, CHCO 1.228(3) Å and CHCH₂CO 1.223(3) Å. The coordination chemistry of the ligand with several lanthanides was examined, and the structure of the complex Gd(NO₃)₃{[(i-C₃H₇O)₂P(O)CH[C(O)N(C₂H₅)₂][CH₂C(O)N(C₂H₅)₂]}₂·H₂O was determined. The complex crystallized in the monoclinic space group P2₁/n with a = 13.524(5), b = 22.033(4), c = 19.604(4) Å β = 106.22(2)°, Z = 4 and V= 5609(3) ų. The structure was solved by heavy atom techniques and blocked least-squares refinement converged with R_F = 5.9% and R_wF = 4.1% on 5275 reflections with F > 4σ(F). Both trifunctional ligands were found to bond to Gd(III) through only the phosphoryl oxygen atoms. The remainder of the Gd coordination sphere was composed of three bidentate nitrate oxygen atoms and an oxygen bonded water molecule. Several important bond distances include GdO(phosphoryl)_av = 2.343(5) Å, GdO(nitrate)_av = 2.475(7) Å, GdO(water) = 2.354(5) Å, PO(phosphoryl)_av = 1.467(6) Å, CHCO_av = 1.242(10) Å and CHCH₂CO_av = 1.209(11) Å.     

X-ray crystal structure and properties of tris(tetrathiafulvalenium) hexachloroplatinate

The title salt has been prepared by the diffusion of tetrathiafulvalene (TTF) and [NBuⁿ₄]₂[PtCl₆] in acetonitrile. Crystals (black plates) are tetragonal, space group P4/mbm, with a=11.757(2), c=11.707(2) Å, and Z=2. The block-diagonal least-squares refinement, based on 804 independent reflections with ∣F_o∣> 3σ(F), yields an R factor of 0.11. The structure is comprised of TTF-trimer units which are arranged perpendicularly to each other, forming a two-dimensional layer with somewhat close sulfur- sulfur contact among the trimers. The salt exhibits the electrical resistivity of 87 Ω cm as a compacted pellet at 25 °C. Binding energies of platinum 4f electrons of the [PtCl₆]²⁻ anion suggest an extreme reduction from the platinum(IV) state.