Crystal and molecular structure of diphenylphosphinylacetic acid

Diphenylphosphinylacetic acid crystallizes in the monoclinic space groupP2_l/n with unit cell dimensionsa=5.6875(7),b=17.049(4),c=13.471(2) Å, =93.36(1)° and Z=4. The molecular packing consists of hydrogen bonded chains arising from intermolecular interactions between a carboxylic acid hydroxyl group and an oxygen of an adjacent phosphine oxide moiety.     

Crystal structure analysis of norbornadiene adduct of diphenyl hexamethylenimino phosphiniminocyclotrithiazene

The title compound (C₆H₁₂N)Ph₂P-N S₃N₃ C₇H₈ crystallizes in the monoclinic space group P2₁/n with unit cell dimensions: a = 9.9200(5), b = 16.3316(11), c = 15.7009(17) Å, = 91.99(1)°, and Z = 4. The cyclotrithiazene ring adopts a chair conformation with equal bond distances and the norbornadiene is fused in an exo, exo fashion to the heterocycle. Norbornadiene addition to the cyclotrithiazene influences the bonding pattern in the ring as well as the P N S moiety.     

Crystal and Molecular Structures of Tris(1-Methylimidazol-2-yl)Phosphine,Tris(4-Methylthiazol-2-yl)Phosphine and its Sulfide

Abstract  Two crystal structures of tris(azolyl)phosphines, PR₃ [R′ = 1-methylimidazol-2-yl (1) or R′′ = 4-methylthiazol-2-yl (2)], and the crystal structure of the sulfurisation product of 2, R′′₃PS (3), were determined. All compounds crystallise in polar space groups, 1 in the orthorhombic space group Pna2₁ with cell parameters a = 13.9779(15) ?, b = 9.2492(10) ? and c = 10.2439(11) ?; 2 in the trigonal space group, R3c, with a = 15.2383(10) ? and c = 10.5882(13) ? and 3 in the orthorhombic space group, Cmc2₁, with a = 13.466(3) ?, b = 9.308(2) ? and c = 12.207(3) ?. Graphical Abstract  This article presents two crystal structures of tris(azolyl)phosphines and one of a tris(thiazolyl)phosphine sulfide, a compound which show potential for wide application in coordination chemistry due to their multidentate nature.      

Crystal and molecular structure of 569-1569-1569-1, C12H16O5Fe

The relative stereochemistry of the tricarbonyl(5,6,7,8-⁴-5,7-nonadien-2,4-diol)iron was revealed to be (2S^*,4S^*,5S^*) by single crystal X-ray diffraction analysis.     

Molecular structure of (tBu)3AlP(nPr)3

The crystal and molecular structure of (^tBu)₃AlP(ⁿPr)₃ has been determined. The Al(1)?P(1) bond distance [2.594(3) Å] is slightly longer than other aluminum-phosphine complexes; however, the geometry about aluminum is similar to that of the [AlCl(^tBu)₃]^? anion, suggesting that the geometry about the aluminum in tri-tert-butylaluminum complexes is defined by the size of thetert-butyl ligands and not as a consequence of the steric bulk of the Lewis base. Crystal data: Monoclinic,P2_t,a=8.932(2),b=16.832(3),c=9.328(2), Å, β=114.36(3)°,V=1277.6(6) ų,Z=4,R.=0.055,R _w =0.053.     

Crystal and molecular structure of 2-(p-tolyl)-2-dehydrosparteine

The formula of the title compound is C₂₂H₃₀N₂,M _T =322.5; monoclinic:P2₁,a=7.569(3),b=9.381(1),c=13.684(4) Å,=105.81(2)°,Z=2,V _c =933.7 ų,D _x =1.15 g cm^–3,(CuK)=5.1 cm^–1. The sparteine skeleton (bis-quinolizidine system) has atrans-trans configuration. RingA has an intermediate form between the sofa and half-chair conformations, ringsB andD-chair, and ringC-boat conformations, respectively. The double bond C(2)=C(3) is equal to 1.343(9) Å. The phenyl ring is planar and makes an angle with a plane through N(1), C(2), C(3), and C(4) atoms equal to 43.9°.     

Crystal structure of a novel tertiary phosphine coordination complex: dichlorobis(tribenzylphosphine)nickel(II)

The title compound dichlorobis(tribenzylphosphine)nickel(II), Ni[P(CH₂C₆H₅)₃]₂Cl₂, belongs to a type of tertiary phosphine coordination complex, M(PR₃)₂X₂. There are two molecules in the unit cell which do not appear to interact chemically. Both molecules have a trans-square planar configuration with each nickel atom on a center of symmetry. Three benzyl groups are bonded to each phosphorus atom as rotors in a propeller, and the threefold axis is along the P—Ni bond, which has a mean length of 2.23(1) Å. Crystal data: C₄₂H₄₂Cl₂NiP₂, Triclinic, space group , a = 10.4892(15) b = 10.5249(12) c = 19.453(2) Å, = 83.872(8), = 76.839(9), = 62.241(8)°, V = 1850.5(4) ų, Z = 2. There is an intramolecular hydrogen bond between the C3 and C11 atoms.     

Crystal structure of 5,5-dimethyl-2-p-bromophenylimino-Δ3-1,3,4-oxadiazoline

Oxidation of acetone-4-p-bromophenylsemicarbazone with lead tetraacetate yields only one isomer of 5,5-dimethyl-2-p-bromophenylimino-³-1,3,4-oxadiazoline, C₁₀H₁₀BrN₃O. Crystals of this compound are triclinic, space groupP¯1,a = 5·91(1),b = 9·52(1),c = 11·59(2) Å, =114·1(1) °, = 93·5(1) ° and = 108·8(1) °;z = 2 and the chemical composition is C₁₀H₁₀BrN₃O. Of 2306 independent reflexions examined, 877 were strong enough to be measured with integrated precession photographs using MoK radiation. The structure was refined using a full-matrix least-squares program to a finalR value of 0·064. The structure consists of planar phenyl and oxadiazoline rings, with a van der Waals interaction between a phenyl hydrogen atom and oxygen atom of the five member ring preventing the two rings from being co-planar; the H(13)-O(1) separation is 2·47 Å. TheZ-configuration of the product suggests a specific mechanism for the ring closure involving an organolead intermediate.     

Crystal and molecular structure of 2-(1,3-benzothiazol-2-yl)-2-(4-tert-butylcyclohexylidene)ethanonitrile

The crystal and molecular structure of the title compound (C₁₉H₂₂N₂S) has been investigated by single crystal X-ray methods. The crystals are orthorhombic, space groupPbca, with cell dimensions:a=12.082(2)Å,b=11.460(2)Å,c=25.128(4)Å. The structure was solved by direct methods, and refined with 1225 independent reflections by a full-matrix, least-squares procedure, which converged toR=0.042. The benzene and thiazole planes are coplanar and the cyclohexane ring adopts a chair conformation.     

Crystal and molecular structure of 1-(p-bromobenzoyl)-2-methyl-1,2,3,4-tetrahydroquinoline

Crystals of the title compound, C₁₇H₁₆BrNO, are monoclinic, space groupP2₁/n, unit-cell parametersa = 14.48,b = 6.20,c = 16.72 Å, and = 97.35 °. Three-dimensional data were collected with CuK radiation using an automatic diffractometer. The structure was solved by the heavy-atom method and refined by block diagonal least squares to anR index of 0.088 for 2210 reflections. The main features obtained from our studies are (i) the C=O group is orientedanti to the benzene ring, in agreement with the nmr studies; (ii) the C(2) proton is equatorial while the methyl group at C(2) is in an axial position, also in agreement with nmr data. The bromobenzoyl ring and the benzene ring are at 64 ° to each other, while the carbonyl >C=O and the bromobenzoyl groupsBr are at 42 ° to each other.     

Synthesis and Crystal Structures of Bromo(1,10-phenanthroline- N , N ′)tris(2-cyanoethyl)phosphinocopper(I) and Bromo(2,2′-bipyridine- N , N ′)tris(2-cyanoethyl)phosphinocopper(I)

The two new complexes bromo(1,10-phenanthroline-N,N′)tris(2-cyanoethyl)phosphinocopper(I) and bromo(2,2′-bipyridine-N,N′)tris(2-cyanoethyl)phosphinocopper(I) were synthesized and their X-ray crystal structures were determined. The first complex crystallizes in the triclinic space group P-1 with the crystal cell parameters a = 7.7596(7) ?, b = 11.470(1) ?, c = 12.803(1) ?, α = 78.884(1)^°, β = 79.759(1)^°, γ = 86.867(1)^°, V = 1100.0(2) ?³ and Z = 2. The second complex crystallizes in the orthorhombic space group Pbca with the crystal cell parameters a = 10.614(1) ?, b = 12.345(1) ?, c = 31.903(3) ?, V = 4180.3(7) ?³ and Z = 8. In both compounds, the copper(I) ion is four-coordinate with a distorted tetrahedral geometry. In the 1,10-phenanthroline complex, an intermolecular dipole–dipole interaction between two cyano groups stabilizes an unfavorable synclinal conformation of one cyanoethyl group of the phosphine ligand.     

Crystal and molecular structure ofl-3-(2-acetamido-2-ethoxycarbonyl)ethylindole

l-3-(2-Acetamido-2-ethoxycarbonyl)ethylindole is monoclinic:a = 11.469(8),b = 8.088(6),c = 8.457(6) Å, = 106.45(7) °,Z = 2,P2₁. The structure has been solved by direct methods with CuK three-dimensional photographic data, and refined by full-matrix least squares toR = 0.097 for 1390 observed reflections. The structure is stabilized by intermolecular N-H...O hydrogen bonds. The indole ring of the molecule is planar within experimental error.Contribution No. 440 from the Department of Crystallography and Biophysics, University of Madras, Guindy Campus Madras-600025, India.     

Crystal and molecular structure of tetrapyridyl-copper(II)-bis-nitrato-bis-pyridine

The crystal and molecular structure of a pyridine complex of anhydrous copper(II)nitrate is described. The structure has been solved by vector search methods and refined by least-squares methods to R₁=0.049 [I>2(I)]. The complex lies on a twofold axis parallel toa, and two solvent pyridine molecules lie on twofold axes parallel toc. The copper atom is coordinated by four pyridyl groups and two monodentate NO₃ groups. Crystal data: C₃₀H₃₀N₈O₆Cu, orthorhombic, space group Pnna(52),a=14.446(7),b=12.154(5),c=16.881(4) Å,V=2964(2) ų,Z=4.     

Crystal structure of dicyclohexylammonium 2-mercaptobenzoatotriphenylstannate

Dicyclohexylammonium 2-mercaptobenzoatotriphenylstannate crystallizes in the monoclinicP2₁/n space group (a=11.171(2),b=17.891(5),c=17.190(3)Å;=105.08(2)°). The asymmetric unit consists of a [(cyclo-C₆H₁₁)₂NH₂]⁺ cation hydrogen bonded (NO1=2.803(4) Å) to the stannate anion; the [(C₆H₅)₃Sn]⁺ group is covalently linked to the sulfur end (Sn-S=2.427(1)Å) of the [SC₆H₄C(O2)O1]^–2 moiety. The tin is five-coordinate in a distortedcis-trigonal bipyramidal environment in which the carboxyl O2 atom (Sn-O2=2.704(3)Å) and theipso-carbon of a phenyl ring occupy apical positions (O2-Sn-C1=168.7(1)°); the Sn-C_axial bond (Sn-C1=2.179(3)Å) is longer than the Sn-C_equatorial bonds (2.136(4), 2.139(3)Å). The stannate anion is linked to an adjacent cation (NO1=2.880(4)Å) to form a tightly held three-dimensional network structure.     

Crystal structure of 1,3-di-2-[(4-methoxyphenyl)-1-diazenyl]imidazolidine

The crystal and molecular structure of 1,3-di-2-[(4-methoxyphenyl)-1-diazenyl]imidazolidine (1) has been determined by single crystal X-ray diffraction analysis. This novel bis-triazene assumes a close-to planar structure with the aryltriazene moieties aligned in diametrically opposed directions, unlike many other previously reported bis-triazenes, which assume a folded structure. The structure of 1 is compared with the closely related, non-cyclic bis-triazene analogue (2), and also compared with the structure of the simple mono-triazene (3). Crystal data: 1 C₁₇H₂₀N₆O₂, monoclinic, space group C2/c, a = 34.948(3), b = 5.925(5), c = 8.1225(6) Å, = 100.8420(10)°, and V = 1652.0(2) ų, for Z = 4.     

Crystal and molecular structure studies of 2-(3-chlorophenyl),3,5-diphenylisoxazolidine

The structure of the title compound, 2-(3-chlorophenyl),3,5-diphenylisoxazolidine (C₂₁H₁₈ NOCl) (1) has been investigated by X-ray crystallography. Compound (1) crystallizes in orthorhombic space group P2₁2₁2₁ with cell parameters a=10.288(17) Å, b=37.98(3) Å, c=8.809(9) Å, Z=8. Compound (1) has both intra- and intermolecular hydrogen bonds.     

Crystal structure of 2,3-bis(2-pyridyl)-5, 8-dimethoxyquinoxaline

Crystals of 2,3-bis(2-pyridyl)-5,8-dimethoxyquinoxaline (bpdmq) were examined using X-ray diffraction analysis: Monoclinic, space group P2 ₁/n with a = 6.9362(14) Å, b =17.285(4) Å, c =13.583(3) Å, =96.21(3)°, V =1619.0(6) ų, Z = 4. The crystal structure indicates that the title compound consists of quinoxaline ring system substituted with two pyridine rings and two methoxy groups. Two pyridine rings form dihedral angles of 39.8 and 44.1° with the mean planar quinoxaline ring, and a dihedral angle of 67.1° with each other. The orientation of the pyridine rings is such that their N atoms face each other. There exist significant – interactions responsible for the formation of the stacks along the a-axis of the crystal packing.     

Crystal structure of new AsS2 compound

AsS₂ single crystals have been obtained for the first time from an As₂S₃ melt at pressures above 6 GPa and temperatures above 800 K in the As₂S₃ → AsS + AsS₂ reaction. The monoclinic structure of the new high-pressure phase is solved by X-ray diffraction analysis and compared to the structure of high-pressure AsS phase, which was studied previously.     

Crystal structure of Li2MgSiO4

The crystal structure of Li₂MgSiO₄ was established by single-crystal X-ray diffraction analysis. The crystals are monoclinic, a = 4.9924(7) Å, b = 10.681(2) Å, c = 6.2889(5) Å, β = 90.46(1)°, Z = 4, sp. gr. P2₁/n, V = 335.54 ų, R = 0.062. In a Li₂MgSiO₄ crystal, four types of independent T(1–4) tetrahedra share vertices to form a three-dimensional framework. Three of these tetrahedra are occupied simultaneously by Li and Mg cations, which corresponds to the crystallochemical formula (Li_0.98Mg_0.02)(Li_0.80Mg_0.20) · (Li_0.22Mg_0.78)SiO₄. In slightly distorted SiO₄ tetrahedra denoted as T(1), the average Si-O distance is 1.635(2) Å. The distortions of other tetrahedra and the average (Li _x Mg_{1 ? x} )-O distances increase with an increase in lithium content. These distances in the T(2), T(3), and T(4) tetrahedra are 1.955(2), 1.971(4), and 2.019(6) Å, respectively. The structure of the new compound is compared with the crystal structures of other Li₂ M ²⁺SiO₄ compounds and the luminescence spectra of Cr⁴⁺: Li₂MgSiO₄.