The synthesis and molecular structure of diiodooctacarbonyldiosmium(I), [Os2(CO)8I2]

The compound, diiodooctacarbonyldiosmium(I), [Os₂(CO)₈I₂], has been prepared by a route involving only atmospheric pressures. Its structure has been determined by X-ray crystallography. The crystals are tetragonal with a = 11.791(2), c = 23.583(4) Å, Z = 8, D_c = 3.48 Mg m⁻³. A total of 1637 reflections were collected out to θ = 25° on a CAD4 diffractometer in ω—2θ mode using Mo Kα (λ = 0.7107 Å) radiation. Lp and empirical absorption corrections were applied. The structure was solved in the space group I4₁cd using conventional heavy atom methods and refined to R = 0.0477 [R_w = 0.0424, w = (σ²F)⁻¹]. The molecule of [Os₂(CO)₈l₂] has two crystallographically equivalent halves joined by a single OsOs bond of length 2.947(3) )Å. There are no bridging ligands. The geometry about each osmium is pseudo-octahedral and the iodine atoms occupy equatorial positions with an OsI distance of 2.767(3) Å. The equatorial ligands on one osmium atom are staggered with respect to the equatorial ligands on the other osmium atom.     

Polarographic and spectrophotometric studies on the equilibration of Mo(V) species in HCl solutions

The equilibration of Mo(V) species has been investigated in 0.5–5 M HCl (I = 5.0). The equilibria involve the dimer(D₁)-dimer(D₂) interconversion, followed by the decomposition of D₂ to a monomeric form at greater acidities:

The equilibrium constants have been determined as K₁ = 2 ± 0.3 and K₂ = (1.5 ± 0.4) X 10^?8 at 25 °C.     

The crystal and molecular structure of O-ethylxanthato-bis(quinolin-8-olato)antimony(III) and a redetermination for tris(O-ethylxanthato)antimony(III)

The crystal structures of the title compounds Sb(C₉H₆NO)₂(S₂COC₂H₅) (1) and Sb(S₂COC₂H₅)₃ (2) have been determined by three dimensional X-ray diffraction techniques and refined by a least squares method; final R 0.049 for 2911 reflections [I ? 3σ(I)] for (1) and R 0.047, R_w 0.046 for 846 reflections [I ? 2σ(I)] for (2). Crystals of (1) are triclinic, space group P1, a = 10.825(2), b = 11.131(2), c = 8.911(1) Å, α = 109.45(1), β = 95.92(1) and γ = 93.02(1)° with Z = 2. Crystals of (2) are rhombohedral, space group R$\text{3}$, a_rhomb = 10.138(3) Å and α = 103.43(2)°. The environment of the Sb atom in (1) is based on a pentagonal bipyramidal geometry consisting of the six donor atoms of the three chelating ligands and a stereochemically active lone-pair of electrons which occupies the remaining axial position. The xanthate ligand chelates the Sb atom almost symmetrically with two long SbS bonds of 3.059(2) and 3.171(2) Å. In contrast the xanthate ligands in (2) chelate the Sb atom with asymmetric SbS bonds of 2.511(2) and 3.002(3) Å.     

Crystal structure of [chloro(diethyldithiocarbamato)butyl phenyl]tin(IV)

The crystal structure of the title compound, SnCl(C₆H₅)(C₄H₉)[S₂CN(C₂H₅)₂], was determined and refined to an R factor of 3.2% for 4876 reflections. The molecule contains five-coordinate tin in a distorted trigonal bipyramidal arrangement with the tin atom lying 0.20 Å below the equatorial plane formed by one of the sulphur atoms, S(1), and the donor carbons of the butyl and phenyl groups. The chlorine and the other sulphur atom, S(2), occupy axial sites, making a S(2)SnCl angle of 156.85(1)°. The SnS(2) bond is markedly elongated (2.764(1) Å) compared to the SnCl bond (2.449(1) Å) and the SnS(1) bond (2.454(1) Å). The structure resembles those of analogues such as (C₆H₅)₂Sn(glygly) in having both hydrocarbon ligands located in the equatorial plane. Crystal data: space group P$\text{1}$: a = 8.291(2) Å, b = 14.726(3) Å, c = 9.509(2) Å, α = 96.24(2)°, β = 107.02(3)°, γ = 116.70(2)°, Z = 2, R = 3.2% for 4876 independent reflections.     

Preparation,spectroscopy and crystal structure of a novel tetranuclear copper(I) benzimidazoline-2-thione complex: cyclo-hexakis-μ2-(benzimidazoline-2-thione) tetrakis[benzimidazoline-2-thione copper(I)] perchlorate quatrodeca hydrate

Reaction between copper(II) perchlorate and benzimidazole-2-thione (bzimztH) in aqueous ethanol produced a pale green crystalline solid of empirical formula [Cu₂(bzimztH)₅](ClO₄)₂·7H₂O. The compound is diamagnetic at room temperature and possesses no d-d absorption in its electronic spectrum.The crystal structure of the compound contains centrosymmetrically constrained tetranuclear cations [Cu₄(bzimztH)₁₀]⁴⁺, perchlorate anions and water molecules in a monoclinic unit cell [a = 14.960(2), b = 25.863(3), c = 14.031(2) Å, β = 110.331(8)°, space group P2₁/c, Z = 2]. The tetranuclear cations contain a planar centrosymmetric array of copper(I) atoms, Cu₄, with edge dimensions of 2.681(2) and 4.216(3) Å and an internal angle of 85.8(1)°.Each copper(I) atom is tetrahedrally coordinated by four S-donating ligands. The ten ligands in the cation consists of four terminal S-donating, one asymmetric μ₂-S bridging ligand along each of the long edges of the Cu₄ array and four asymmetric μ₂-S bridging ligands arranged in pairs along each of the short edges of the Cu₄ array. The latter generate pairs of Cu₂S₂ units narrow angles at the bridging S atoms, 69.1(1)° and 66.8(1)°. The remaining bridging angle is much larger, 124.9(1)°. CuS distances are in the range 2.262(2) to 2.499(3) Å with the terminal distances somewhat shorter than the bridging ones. An alternating sequence of long and short CuS distances, created by the μ₂-S bzimztH ligands, links the copper atoms of the Cu₄ array. The final R index for 4672 observed reflections is 0.092.     

The structure of 1,3-diphenyl-1,3-propandionatobis(triphenylantimony)diphenylrhodium(III)dibenzene

1,3-Diphenyl-1,3-propandionatobis(triphenylantimony)diphenylrhodium(III)dibenzene, [Rh(DPD)(SbPh₃)₂Ph₂]·2(C₆H₆) has been isolated as the product of the reaction between the Rh(I) complex 1,3-diphenyl-1,3-propandionatodicarbonylrhodium(I), [Rh(DPD)(CO)₂], and triphenylantimony in acetone and in n-hexane medium. The crystal and molecular structure was determined from single crystal X-ray diffractometer data. The unit cell is triclinic with a = 19.083, b = 13.167, c = 13.536 Å, α = 81.81°, β = 111.59°, γ = 100.49°, Z = 2 and space group P_$\text{1}$. The structure was refined to a R-value of 0.079 for 6637 contributing reflections. The coordination polyhedron can be described as a slightly distorted octahedron in which the Rh-atom is coordinated by two phenyl groups, two oxygen atoms of a chelate ring, which are in cis position to one another, and two antimony-atoms of the two SbPh₃ ligands, which are in trans positions.     

Preparation and characterization of (9-methyladenine)triammineplatinum(II) and trans-dihydroxo(9-methyladenine)triammineplatinum(IV) complexes

The preparation is reported of [(NH₃)₃Pt(9- MeA)] X₂ (9-MeA = 9-methyladenine) with XCl (1a) and XClO₄ (1b) and of trans-[(OH)₂Pt(NH₃)₃- (9-MeA)]X₂ with XCl (2a) and XClO₄ (2b), and the crystal structure of 1b. [(NH₃)₃Pt(C₆H₇N₅)](ClO₄)₂ crystallizes in space group P2₁/n with a = 20.810(7) Å, b = 7.697(3) Å, c = 10.567(4) Å, β = 91.57(6)°, Z = 4. The structure was refined to R = 0.054, R_w = 0.063. In all four compounds Pt coordination is through N7 of 9-MeA, as is evident from ³J coupling between H8 of the adenine ring and ¹⁹⁵Pt. Pt(II) and Pt(IV) complexes can be differentiated on the basis of different ³J values, larger for Pt(II) than for Pt(IV) by a factor of 1.57 (av). In Me₂SO-d₆, hydrogen bonding occurs between Cl^? and C(8)H of 9-MeA as weil as between Cl^? and the NH₃ groups in the case of the Pt(II) complex 1a. Protonation of the 9-MeA ligands was followed using ¹H NMR spectroscopy and pK_a values for the N1 protonated 9-MeA ligands were determined in D₂O. They are 1.9 for 1a and 1.8 for 2a, which compares with 4.5 for the non-platinated 9-MeA. Possible consequences for hydrogen bonding with the complementary bases thymine or uracil are discussed briefly. Protonation of the OH groups in the Pt(IV) complexes has been shown not to occur above pH 1.     

Synthesis and crystal structure of bis(tetramethylammonium) aquotetra-fluorodioxouranate(VI) dihydrate, [(CI3)4 N]2[UO2 F4(H2 O)]·2H2O

The title compound has been synthesized and subjected to crystal structure analysis. M_r = 548.50, m.p. 108.1 °C (decom.), orthorhombic, Im2m,a = 7.006(2), b = 8.938(2), c = 13.619(2) Å V = 852.8(3) ų, Z = 2, D_x = 2.136, D_m, (flotation in CCl₄/CH₂I₂) = 2.128 g cm^?3, λ(Mo-Kα) = 0.71069 Å, μ = 90.79 cm^?1, F(000) = 519.89, T = 295 K, final R_F = 0.036 and R_G = 0.044 for 566 observed reflections. The discrete [UO₂F₄(H₂0)]^2? anion has site symmetry m2m, its virtually linear uranyl moiety being surrounded by fluoro and aquo ligands occupying the vertices of a pentagon in the equatorial plane. Watet molecules serve to link the complex anions by hydrogen bonds into layers, between which the organic cations are accommodated.     

The preparation and structure of tris[bis(pyrazolyl)borate]indium(III)

The compound In[(pz)₂BH₂]₃ (pz = 1-pyrazolyl, C₃H₃N₂⁻) was prepared from In(NO³)₃ and K[(pz)₂-BH₂] in water, and characterised by spectroscopic and X-ray methods. Crystals are orthorhombic,Pna2₁,a = 20.279(4),b = 8.884(2),c = 13.411(2)Å;R = 0.0285. Individual molecules contain a near-regular six-coordinate indium atom with In–N (av.) 2.241(5)Å. The pyrazolyl borate ligands are puckered, with dihedral angles between the two rings of each ligand in the range 133–144°.     

Coordination chemistry of 7,9-disubstituted 6-oxopurine metal compounds. 4. Platinum(II) coordination at N(1). Molecular and crystal structure of [(ethylenediamine)bis(7,9-dimethylhypoxanthine)platinum(II)] hexafluorophosphate

The preparation and molecular and crystal structure of the complex [(ethylenediamine)bis(7,9,-dimethylhypoxanthine)platinum(II)] hexafluorophosphate, [Pt(C₂H₈N₂)(C₇H₈N₄O)₂] (PF₆)₂, are reported. The complex crystallizes in the monoclinic system, space group C2/c, with a = 12.334(2)Å, b = 10.256(2)Å, c = 22.339(3)Å, β = 101.31(1)°, V = 2771.0ų, Z = 4, D_measd = 2.087(3) g cm^?3, D_calc = 2.094 g cm^?3. Intensities for 3992 symmetry-averaged reflections were collected in the θ-2o scan mode on an automated diffractometer employing graphite-monochromatized MoKα radiation. The structure was solved by standard heavy-atom Patterson and Fourier methods. Full matrix least-squares refinement led to a final R value of 0.051. Both the ethylenediamine chelate and the PF₆^? anion are disordered. The primary coordination sphere about the Pt(II) center is approximately square planar with the bidentate ethylenediamine ligand and the N(1) atoms [Pt(II) ? N(1) = 2.020(5)Å] of two 7,9-dimethylhypoxanthine bases (related by a crystallographic twofold axis of symmetry) occupying the four coordination sites. The exocyclic O(6) carbonyl oxygen atoms of the two 7,9-dimethylhypoxanthine ligands participate in intracomplex hydrogen bonding with the amino groups of the ethylenediamine chelate [N(ethylenediamine) ? O(6) = 2.89( )Å]. The observed Pt ? O(6) intramolecular distances of 3.074(6)Å are similar to those found in other Pt(II) N(1)-bound 6-oxopurine complexes and in several Pt(II) N(3)-bound cytosine systems.     

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.     

Preparation,structure and properties of dicyano silver complexes of the M(en)3Ag2(CN)4 and M(en)2Ag2(CN)4 type

Complexes of the M(en)₃Ag₂(CN)₄ (M = Ni, Zn, Cd) and M(en)₂Ag₂(CN)₄ (M = Ni, Cu, Zn, Cd) type were prepared and identified by elemental analysis, infrared spectroscopy, measurement of magnetic susceptibility, and X-ray powder diffractometry. The crystal structures of Ni(en)₃Ag₂(CN)₄ (I) and Zn(en)₂Ag₂(CN)₄ (II) were determined by the method of monocrystal structure analysis. Complex I crystallizes in the space group C2/c, a = 1.2639(5), b = 1.3739(4), c = 1.2494(4) nm, β = 113.25(4)°, D_m = 1.86(1), D_c = 1.86 gcm⁻³ Z = 4, R = 0.0429. The crystal structure of I consists of complex cations [Ni(en)₃]²⁺ and complex anions [Ag(CN)₂]⁻. Complex II crystallizes in the space group I2/m, a = 0.9150(3), b = 1.3308(4), c = 0.6442(2) nm, β = 95.80(3)°, D_m = 2.14(1), D_c = 2.15 gcm⁻³, Z = 2, R = 0.0334. Its crystal structure consists of infinite, positively charged chains of the [-NCAgCNZn- (en)₂]_nⁿ⁺ type and isolated [Ag(CN)₂]⁻ anions. The atoms of Ag are positioned parallely to the z axis and the AgAg distance is equal to 0.3221(2) nm.     

Crystal and molecular structure of bis(tricyclohexylphosphine)silver(I)nitrate and bis(tricyclohexylphosphine)silver(I)perchlorate; correlation of the structures with the silver-phosphorus coupling constants

Two (1:2) silver monophosphine complexes have been studied by X-ray diffraction methods and in solution by P NMR spectroscopy. Both are monomeric and tricoordinated in the solid state but one of them, the perchlorate compound, is probably associated as a dimer species in solution from the lower ¹J(¹⁰⁷Ag³¹P) value when compared to the nitrate analogue. Previous structural correlations found in other silver-phosphine complexes have been confirmed for these new compounds. Thus, larger PAgP bond angles are associated with shorter AgP bond distances, longer Aganion bond distances and lower Lewis basicity of the anions. Selected structural data are: PAgP bond angle of 139.04(9)°, AgP bond lengths of 2.440(3) and 2.445(3) Å for the nitrate complex and 147.34(3)°, 2.429(1) Å and 2.432(1) Å, for the perchlorate one. J(¹⁰⁷Ag³¹P) is 457 Hz and 447 Hz, respectively. The complexes are triclinic, Z = 2, with the parameters: a = 9.258(2), b = 9.828(2), c = 23.385(5) Å, α = 94.73(2)°, β = 96.35(2)°, γ = 116.42(1)° (nitrate) and a = 9.505(2), b = 9.790(2), c = 23.667(6) Å, α= 99.03(2) β = 95.44(2) γ = 115.97(1)° (perchlorate).     

Copper(II) halide complexes of 2-aminobenzophenone. Crystal and molecular structure of bis(2-aminobenzophenone)dichlorocopper(II)

The complexes CuX₂L₂ (X = Cl, Br; L = 2-aminobenzophenone) were prepared and characterized by means of magnetic and spectroscopic measurements. For the Cl compound the crystal structure was also determined. Crystals are triclinic, space group P$\text{1}$, with a = 13.397(3), b = 10.752(2), c = 9.205(2) Å, α = 72.26(1)°, β = 91.58(1)°, γ = 106.86(1)°, and Z = 2. The structure was solved by the heavy-atom method and refined by least-squares calculations to R = 0.034 for 2581 counter data. It consists of discrete CuX₂L₂ monomers showing distorted trigonal bipyramidal coordination geometry about the copper ion. The amino nitrogens are axial ligands, with the equatorial positions occupied by two chlorine atoms and a carbonyl oxygen from one L molecule acting as a bidentate ligand. Infrared and ligand field spectroscopies and magnetic measurements, interpreted on the basis of the known crystal structure, also suggest a similar structure for the related Br compound.     

Eight-coordination. Synthesis and structure of the schiff-base chelate bis(N,N′-disalicylidene-1,2-phenylenediamino)cerium(IV)

In an effort to elucidate the factors that determine the geometry of eight-coordinate complexes we synthesized and structurally characterizes the complex bis(N,N′-disalicylidene-1,2-phenylenediamino)Cerium(IV), Ce(salophen)₂. It is a square antiprismatic species with each chelating ligand spanning sss edges. The CeO bonds average 2.214 Å, appreciably shorter than CeN distance of 2.606 Å. The tow ligands have the sandwich orientation and the trapezoidal planes intersect at 88.2°. The δ angles are 7.0°, 2.6°, 56.5° and 55.9° and the ? angles are 30.0° and 28.6°. The complex crystallized in space group P2₁/C with Z = 4, a = 11.090(2) Å, b = 16.332(3) Å, c = 18.916(3) Å, β = 70.10(2)° and d_calc = 1.585 g/cm₃.     

Differential Stability of the Triple Helix of (Pro-Pro-Gly)10 in H2O and D2O: Thermodynamic and Structural Explanations

Abstract

(Pro-Pro-Gly)₁₀ [(PPG₁₀)], a collagen-like polypeptide, forms a triple-helical, polyproline-II structure in aqueous solution at temperatures somewhat lower than physiological, with a melting temperature of 24.5°C. In this article, we present circular dichroism spectra that demonstrate an increase of the melting temperature with the addition of increasing amounts of D₂O to an H₂O solution of (PPG)₁₀, with the melting temperature reaching 40°C in pure D₂O. A thermodynamic analysis of the data demonstrates that this result is due to an increasing enthalphy of unfolding in D₂O vs. H₂O. To provide a theoretical explanation for this result, we have used a model for hydration of (PPG)₁₀ that we developed previously, in which inter-chain water bridges are formed between sterically crowded waters and peptide bond carbonyls. Energy minimizations were performed upon this model using hydrogen bond parameters for water, and altered hydrogen bond parameters that reproduced the differences in carbonyl oxygen-water oxygen distances found in small-molecule crystal structures containing oxygen-oxygen hydrogen bonds between organic molecules and H₂O or D₂O. It was found that using hydrogen bond parameters that reproduced the distance typical of hydrogen bonds to D₂O resulted in a significant lowering of the potential energy of hydrated (PPG)₁₀. This lowering of the energy involved energetic terms that were only indirectly related to the altered hydrogen bond parameters, and were therefore not artifactual; the intra-(PPG₁₀) energy, plus the water-(PPG₁₀) van der Waals energy (not including hydrogen bond interactions), were lowered enough to qualitatively account for the lower enthalpy of the triple-helical conformation, relative to the unfolded state, in D₂O vs. H₂O. This result indicates that the geometry of the carbonyl-D₂O hydrogen bonds allows formation of good hydrogen bonds without making as much of an energetic sacrifice from other factors as in the case of hydration by H₂O.     

Tris(1-methylcytosine-N3)ammineplatinum(II) perchlorate monohydrate,a model for simultaneous binding of three nucleobases to a single metal ion

A Pt(II) complex containing three 1-methylcytosine ligands (C), [Pt(NH₃)C₃] (CIO₄)₂· H₂], has been prepared starting with cis-Pt(NH₃)₂Cl₂, and its crystal structure has been determined. The title compound represents a model of a hypothetical interaction of cis.Pt(II) with three biomolecules which proceeds via an intermediate monochloro complex, cis-[Pt(NH₃)₂CCl]Cl, and loss of ammonia from this compound. [Pt(NH₃)C₃](ClO₄)₂·H₂O crystallizes in space group P2₁/c (No. 14) with a = 15.296(3), b = 4.666(3), c = 14.025(2) Å, β = 122.61(1)° and has 4 formula units in the unit cell. Data were collected with use of a Syntex P2₁ diffractometer and MoKα radiation. The crystal structure was determined by standard methods and refined to R₁ = 0.043 and R₂ = 0.056 based on 2925 independent reflections. The compound contains the three 1-methylcytosine ligands bound through N(3) with the three ligands almost perpendicular to the Pt coordination plane. The two C ligands trans to each other have identical orientations with respect to the platinum square plane whereas the cytosine trans to NH₃ has the opposite orientation. Bond lengths and angles are normal.     

Studies on copper(II) complexes of o-quinone monooximes. 4. Interaction between aquobis(1,2-naphthoquinone 1-oximato)copper(II) and lanthanide(III) ions. New heteropolynuclear complexes containing CuII and LnIII

By reacting aquobis(1,2-naphthoquinone 1-oximato)copper(II) [Cu(nqo)₂·H₂O] with lanthanide chlorides, new heteropolynuclear complexes containing both Cu^II and Ln^III (Ln^III = La^III, Nd^III) were obtained. The compounds have been characterized by elemental and thermogravimetric analysis, electron microprobe analysis, and electronic and vibrational spectral data. A different Cu^II complex, containing nqo ligands and ionic perchlorate but no lanthanide ions, was obtained by reaction of Cu(nqo)₂·H₂O with lanthanide perchlorates.     

Palladium(II) complexes containing pyrazole-derived ligands of biological interest. Four,five and six coordinate palladium(II) complexes with 5(3)-methylpyrazole-3(5)-carboxamide and 5(3)-methylpyrazole-3(5)-carbohydrazide

Neutral bis-complexes of palladium(II) with 5(3)- methylpyrazole-3(5)-carboxamide (mpa) and 5(3)- methylpyrazole-3(5)carbohydrazide (mph) of the type PdX₂·2L (where L = mpa, mph; X = Cl, Br, I, SCN, NO₃, ClO₄) have been synthesised and spectroscopically characterised. Available physico-chemical data indicate the mpa complexes of Pd(II) to be trans-square planar species with the primary ligand molecule showing monodentate behavior through the pyrazolyl ring nitrogen only. The Pd(II)—thiocyanate complex of mpa is proposed to have a pseudo-square pyramidal geometry attained through bridging anionic component. The complexes PdX₂·2mph (X = Cl, NO₃) appear to be six-coordinate species at least in the solid state; the corresponding thiocyanato variety has in all probability a five coordinate structure. The species, Pd(ClO₄)₂·2mph is a usual four coordinate one with non-coordinating perchlorate group. The monochelates, PdX₂·mph (X = Br, I), are cis-square planar varieties. The ligand molecule, mph, in all cases is believed to function as (N,N) bidentate ligand in its ‘imidol’ form except in the thiocyanate complex where unusually it exhibits both the monodentate and bidentate functions in the same species.     

X-ray structure of a mono(1-methylthyminato) complex of cisplatin,chloro-(1-methylthyminato-N3)-cis-diammineplatinum(II) monohydrate

The crystal structure of chloro-(1-methyltyminato- N3)-cis-diammineplatinum(II) monohydrate, cis- (NH₃)₂Pt(C₆H₇N₂O₂)Cl·H₂O, is reported. The compound crystallizes in space group P$\text{1}$ with a = 6.911(2) Å, b = 8.598(3) Å, c = 11.464(4) Å, α = 100.13(3)°, β = 120.03(3)°, γ = 93.16(3)°, Z = 2. The structure was refined to R = 0.048 and R_w = 0.057. The compound contains the deprotonated 1-methylthymine ligand coordinated to Pt through N3 (1.973(10) Å). This distance represents the shortest Pt-N3(pyrimidine-2.4-dione) bond reported so far. The two PtNH₃ bond lengths differ significantly: PtNH₃ (trans to Cl) is longer (2.052(10) Å) than PtNH₃ (trans to N3 of 1-MeT) (2.002(11) Å). The PtCl distance (2.326(3) Å) is normal, as is the large dihedral angle between the Pt coordination plane and the nucleobase (76.5°).