Modeling of electronic structure of Co3O4 by Xα-scattered wave method

A previously developed procedure for modeling the electronic structure of oxide systems, using a quantum-chemical calculation in the X-scattered wave approximation, has been applied to the investigation of cobaltous-cobaltic oxide Co₃O₄. As a model of octahedral and tetrahedral sublattices of the oxide we took CoO₆ ^9– and CoO₄ ^6–, respectively. An energy scheme has been constructed for Co₃O₄, and a quantitative interpretation has been given for the photoelectron and x-ray electronic spectra of the valence band, optical excitation spectra, and satellite shake-up lines.Translated from Teoreticheskaya i Éksperimental'naya Khimiya, Vol. 26, No. 3, pp. 291–300, May–June, 1990.     

Structure of x-ray photoelectron 2p and 1s spectra and x-ray Kα emission line of copper in YBa2Cu3O7−δ and CuO,on the basis of SCF-Xα-SW calculations

Conclusions Through an analysis of the electronic structure of the ground state and 2p and 1s hole states of the CuO₄ ^6– cluster, modeling the immediate environment of a copper atom (one of the two types) in YBa₂Cu₃O_7– and the immediate environment of the copper atom in CuO, it has been shown that upon ionization of core levels of copper, there is a radical reconstruction of the valence band of the cluster with a change in character of the chemical bond from covalent to ionic. Along with this, charge is transferred from the copper-oxygen bond to the central atom. Ionization of core levels leads to intense excitation of electrons into the upper semifilled valence level of the cluster 3b_1g, and also leads to the appearance in the x-ray photoelectron and x-ray spectra (K spectra, for example) of intense satellite lines with strong multiplet splitting (with the exception of the satellite of the x-ray photoelectron 1s spectrum). We have confirmed the interpretation of the x-ray photoelectron 2p_3/2 (2p_1/2) spectrum and have predicted the form of the x-ray photoelectron 1s spectrum of copper(II). On the basis of the same approach, a complex structure has been predicted for the x-ray K emission line and it has been confirmed that the shift of this line in compounds of copper(II) must be made with some caution, as the shift may be due (for example) to a change in relative intensities of the main and satellite lines, which are located relative to each other at a distance of 0.4 eV.Institute of Inorganic Chemistry, Siberian Branch, Russian Academy of Sciences. Translated from Zhurnal Strukturnoi Khimii, Vol. 33, No. 4, pp. 14–22, July–August, 1992.     

Interaction of Pd(II) with Glutamic Acid

Pd(II) complexes with glutamic acid of the composition K[Pd(HGlu)Cl₂] (I) and [Pd(HGlu)₂] (II) were synthesized and studied by IR and electronic absorption spectroscopy methods. Pd²⁺–H₂O–Cl^– and Pd²⁺–H₂O–Cl^––H₂Glu systems were analyzed by pH-metric titration. The most essential Pd(II) complex forms were established by mathematical modeling and their formation constants were calculated. The electronic absorption spectra of complexes I and II were measured in aqueous and physiological solutions. Complex I was found to be biologically active and to exhibit antimetastatic properties.     

Hypoxanthine,xanthine and theobromine complexes with palladium(II) and platinum(IV) chlorides

Summary Complexes of the general types Pd(L)(LH)Cl (LH=hxH, xnH, or tbH) and Pt(L)(LH)Cl₃ (LH=hxH, or xnH) are formed by boiling under reflux 21 molar mixtures of hypoxanthine (hxH), xanthine (xnH) or theobromine (tbH) and PdCl₂ or PtCl₄ in ethanol-triethyl orthoformate. These complexes appear to be linear chain polymeric species, characterized by single monoanionic L^– ligands bridging between adjacent Pd²⁺ or Pt⁴⁺ ions. Inclusion of one terminal neutral LH and one terminal chloro-ligand completes the coordination sphere in the square-planar Pd²⁺ complexes, while the Pt⁴⁺ complexes aretrans-octahedral, involving three terminal chloro and one terminal LH ligand per platinum. The possible binding sites of the bidentate bridging L^– and the unidentate terminal LH are discussed.     

Synthesis of binuclear complexes of PdCl2 with chiral α,α′-diamino-meta-xylene dioximes H2L1, H2L2, and H2L3, the derivatives of the terpenes (+)-3-carene, (R)-(+)-limonene, and (S)-(−)-α-pinene. Crystal structure of [Pd2(H2L1)Cl4]

Chiral α,α′-diamino-meta-xylene dioximes H₂L¹, H₂L², and H₂L³ were obtained from the naturally occurring terpenoids (+)-3-carene, (R)-(+)-limonene, and (S)-(?)-α-pinene, respectively. Reactions of these ligands with PdCl₂ gave the diamagnetic complexes Pd₂(H₂L¹)Cl₄ (I), Pd₂(H₂L²)Cl₄ (II), and Pd₂(H₂L³)Cl₄ (III). According to X-ray diffraction data, the crystal structure of complex I consists of acentric binuclear molecules [Pd₂(H₂L¹)Cl₄]. The coordination polyhedron PdN₂Cl₂ is a square distorted in a tetrahedral manner (trapezium) made up of two N atoms of the tetradentate bridging cyclic ligand H₂L¹ and two Cl atoms. The fragments PdCl₂ in the complex are cis to each other. According to the ¹H NMR spectra of complexes I–III in CDCl₃, the organic ligands are coordinated through the N atoms; in solution, the complexes exist in several forms.     

Cation and anion coordination chemistry of palladium(II) with polyazacycloalkanes. Thermodynamic and structural studies

The interaction of PdCl ₄ ^2– with the macrocyclic ligands of the series [3k]aneN _k has been studied both in solution and in the solid state. [18]aneN₆ and [21]aneN₇ form both mono- and binuclear Pd²⁺ complexes, whose stability constants have been determined in 0.5 mol dm^–3 NaCl at 298.15 K. [21]aneN₇ also forms, in solution, a trinuclear species in which an amino group deprotonates to bridge two Pd²⁺ ions, as observed in the solid state. The crystal structure of the complexes [Pd₂([18]aneN₆)Cl₂][ClO₄]₂ and [Pd₃([21]aneN₇)Cl₃][ClO₄]₂ · H₂O have been solved by single crystal X-ray analysis. C₁₂H₃₀N₆Cl₄O₈Pd₂: monoclinic, space group C2/m,a = 10.876(2),b = 18.117(2),c = 7.043(2) Å, = 113.78(2)°,V = 1270(12) ų,Z = 2,D _calc = 1.92 g cm^-3, = 16.94 cm^–1.R = 0.063,R _w = 0.059. C₁₄H₃₆N₇CI₅O₉Pd₃: orthorhombic, space groupPcab,a = 13.125(7),b = 13.213(3),c = 33.570(5) Å,V = 5822(3) ų,Z = 8,D _calc = 2.15 g cm^–3, = 21.20 cm^–1.R = 0.074,R _w = 0.061. In very acidic solutions the polyammonium cations (H _k [3k]aneN _k ) ^k+ interact with PdCl ₄ ^2– forming second sphere coordinated species. These reactions have been followed by a microcalorimetric technique in 2 mol dm^–3 HCl solutions. The slowness of the reactions of (H₁₀[30]aneN₁₀)¹⁰⁺ with PdCl ₄ ^2– has been interpreted in terms of inclusion of the anion into the receptor's cavity as shown by the crystal structure of [(PdCl₄)(H₁₀[30]aneN₁₀)][PdCl₄]₂Cl₄: triclinic, space group PT,a = 7.760(3),b = 11.448(4),c = 13.399(11) Å, = 96.31(8)°, = 104.50(6)°, = 92.30(3)°,Z = 1.R = 0.046 andR _w = 0.039.This paper is dedicated to the memory of the late Dr C. J. Pedersen.     

Photoelectron spectrum and ground state electronic structure of chromyl chloride vapor

The electronic structure of chromyl chloride CrO₂Cl₂ has been investigated by ultraviolet (HeI) photoelectron spectroscopy. Mulliken-Wolfsberg-Helmholtz molecular orbital calculations have been performed in order to provide a model for interpretation of the photoelectron spectra and to assist in assigning the low-energy optical absorption and emission transitions. The first ionization potential of CrO₂Cl₂ at 11.8 eV is due to ionization of the near-degenerate oxygen and chlorine nonbonding 2a₂, 4b₁, and 4b₂ MO's. The first unoccupied orbital is basically a chromium dπ^* orbital. The excitations (2a₂, 4b₁, 4b₂)→ 7a₁^* correlate well with the three low energy absorption transitions observed.     

Unexpected reaction pathway during the palladation of 2,5-diphenylphosphacymantrene

A new reaction of P-alkoxypalladation was found. 2,5-Diphenylphosphacymantrene reacts with Na₂PdCl₄ and NaOAc in MeOH or EtOH to give P-methoxy or P-ethoxy derivatives with Pd₂Cl₂ dimeric core. The products 2 and 3 were characterized by ¹H, ³¹P, ¹³C NMR spectra and X-ray crystal structure data.     

Photoelectron and ultraviolet absorption spectra of allenyl vinyl ethers

The electronic structure of allenyl vinyl ethers (I) has been studied with the aid of photoelectron and UV spectroscopy, as well as MNDO and CNDO/S quantumchemical calculations. Divinyl ether has been selected as a model system for these molecules. The photoelectron spectra of I are similar to the spectrum of divinyl ether, with the exception of the band at 10.2–10.6 eV. The long-wavelength band in the UV spectra of I has been assigned to a transition localized in the allene group. The short-wavelength band of I corresponds to the ^* transition observed in divinyl ether.Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 9, pp. 2011–2014, September, 1989.     

X-ray emission spectroscopy and the electronic structure of heterocyclic compounds

The electronic structure of the pyridine molecule has been investigated by x-ray emission spectroscopy. The NK _y and CK _y emission spectra have been measured. Ab initio and MNDO calculations have been carried out and individual bands in the spectra have been identified subsequently. The calculations produce spectral contours which approximate those of the experimental spectra.For Communication 3 see [1].Translated from Khimiya Geterotsiklicheskikh Soedinenii, No. 11, pp. 1484–1487, November, 1993.     

Polarization of the angular momentum of electrons in calculations of the electronic structure of the NiO 6 10− cluster by the xα-scattered-wave method

The x-ray photoelectron spectra of the core 2p_1/2, 2p_3/2, 3s_1/2, 3_1/2 and 3p_3/2 electrons of nickel in the oxide NiO and in an aluminum—nickel catalyst have been discussed on the basis of the results of a self-consistent calculation of the electronic states of the NiO ₆ ^{10 –} cluster in the spin-polarized variation of the X—scattered-wave method with complete consideration of the relativistic properties of the core electrons in the angular-momentum-polarized variant. Partial consideration of the relativistic properties of the valence-band electons (consideration of the Darwin terms and the dependence of the mass on the velocity during the averaging of the wave functions and the density with respect to the angular momentum) does not alter the basic conclusions of the work.Translated from Teoreticheskaya i Éksperimental'naya Khimiya, Vol. 21, No. 6, pp. 714–718, November–December, 1985.     

Synthesis of binuclear complexes of PdCl2 with chiral ethylenediamine dioxime (H2L1), piperazine dioxime (H2L2), and propylenediamine dioxime (H2L3), the derivatives of the natural monoterpenoid (R)-(+)-limonene. The crystal structures of [Pd2(H2L1)Cl4] and [Pd2(H2L2)Cl4]

The diamagnetic complexes [Pd₂(H₂L¹)Cl₄] (I), [Pd₂(H₂L²)Cl₄] (II), and Pd₂(H₂L³)Cl₄(III) with chiral ligands derived from the natural monoterpenoid (R)-(+)-limonene are obtained (H₂ L¹ is ethylenediamine dioxime, H₂L² is piperazine dioxime, and H₂L³ is propylenediamine dioxime). According to X-ray diffraction data, the crystal structures of complexes I and II are composed of binuclear acentric molecules. The coordination polyhedra PdN₂Cl₂ are trapeziums (squares distorted in a tetrahedral manner) made up of two N atoms of the tetradentate bridging cyclic ligands H₂L¹ and H₂L² and two Cl atoms. The fragments PdCl₂ are trans in the complexes. The ¹³C and ¹H NMR spectra of complexes I and II in CDCl₃ also suggest their binuclear structures.     

An SCF XαSW study of the electronic structure and X-ray and photoelectron spectra of Fe(II) and Fe(III) hexacyano complexes in a cluster approach

The electronic structure of the hexacyano complexes [Fe(CN)₆]^4– and [Fe(CN)₆]^3– as clusters of the cyanide complex salts has been calculated by the SCF XSW method. Theoretical photoelectron, X-ray emission and absorption spectra have been constructed. The contribution of the resonance emission to the X-ray emission spectra has been estimated. On the basis of detailed comparison of the theoretical and experimental spectra an assignment of the fine structure of the spectra has been proposed.     

Palladium extraction by amines from nitrate medium in the presence of chloride ions

The extraction of palladium has been studied in amine-solvent-HNO₃–HCl systems. It has been found that palladium is extracted in the forms Am₂PdCl₄ and Am₂Pd₂Cl₆ simultaneously /Am=ammonium cation/.     

Investigation of electronic structure of allenyl ethers by means of photoelectron and UV spectroscopy

A study of the photoelectron spectra of alkyl allenyl ethers has demonstrated their similarity to spectra of alkyl vinyl ethers, with the exception of a band in the 10.0–10.3 eV interval due to ionization of the -orbital of the allenyl fragment C=C. According to data obtained by photoelectron spectroscopy and MNDO quantum-chemical calculations, alkyl allenyl ethers with straightchain substituents exist primarily in the s-cis conformation. The stable conformation of allenyl tert-butyl ether is the s-trans form. The long-wave absorption bands in the UV spectra of alkyl allenyl ethers at 255–275 and 208–213 nm are assigned to electronic transitions of the ^* and ^{* *} types; these are quite insensitive to s-cis/s-trans isomerism.Translated from Izvestiya Akademii Nauk SSSR, Seriya Khimicheskaya, No. 1, pp. 81–88, January, 1990.The authors are extremely grateful to V. K. Turchaninov for assistance in interpreting the spectra.     

Crystal structure determination and properties of hydrogen hexacyanododeca-μ-chloro-octahedro-hexatantalate(4−)-Dodecahydrate

Summary The cluster compound H₄[Ta₆Cl₁₂(CN)₆] · 12H₂O was prepared and identified by potentiometric titrations, i.r. and visible spectra and by three-dimensional single-crystal x-ray diffraction methods. Discrete [Ta₆Cl₁₂(CN)₆]^4– ions contain a linear Ta–CN unit with Ta–C=2.21(4) and C–N=1.16(5) Å, respectively. Each nitrogen atom is hydrogen bonded [2.63(12)Å] to two oxygen atoms.     

Complexes of nickel(II) and palladium(II) with thiobenzamide

Summary The electronic and vibrational spectra of Ni^II and Pd^II complexes with thiobenzamide, L, are discussed. L acts as a sulphur donor ligand. The Pd^II compounds and (NiL₄)(ClO₄)₂ are square planar. PdL₂Cl₂ has acis-structure, while PdL₂X₂ (X=Br or I) istrans; NiL₄Cl₂ istrans-octahedral. The i.r. bands due to(M.S) and(MX) have been assigned. The influence of the anions on the properties of the complexes, both in solution and in the solid state, is discussed.     

Synthesis,spectroscopy and electrochemistry of mixed-ligand complexes of platinum(II) and palladium(II)

Mixed-ligand complexes [MX₂(MBPY)] (M = Pd^II or Pt^II; X = Cl^–, I^–, N^– ₃ or NO₂ ^–; MBPY = 4,4-dimethyl-2,2-bipyridine) have been prepared and characterised by elemental analyses, conductivity measurements, i.r., electronic absorption and ¹H-n.m.r. spectroscopic techniques. The cyclic voltammograms of these complexes suggest the involvement of the metal d orbital in the one-electron oxidation process and the * orbital of the MBPY in the one-electron reduction process. [Pt(MBPY)(N₃)₂] shows solution-state luminescence at room temperature.     

Metal chelates of heterocyclic nitrogen containing ketones,Part IX. Magnetic and spectral studies of the dimeric copper(II) complex of 2-picolyl methyl ketone semicarbazone and its ligation by solvent molecules

Summary The preparation and characterization of [(PMKSC-H)Cu]₂Cl₂ by i.r. electronic and e.s.r. spectra as well as variable temperature magnetic susceptibility are described and a square planar geometry is assumed for the isolated complex. The magnetic susceptibility data indicates overall antiferromagnetic spin coupling. The variable temperature magnetic susceptibility in conjunction with the best fitting procedure yielded: 2J=–46cm^–1, g=2.15 and 6=–5 K. E.s.r. data confirm the existence of spin-spin coupling with D=0.0398 cm^–1. The g-values obtained from the e.s.r. studies were g₁₁=2.24, g=2.08 and g_av.=2.13. The results were used to estimate the Cu-Cu separation in the dimer. The problem of ligation of the dimeric copper(II) complex by various organic solvents was investigated. E.s.r., i.r. and electronic spectra together with the magnetic susceptibiliy studies indicate that [(PMKSC-H)Cu]₂Cl₂ dissociated in polar solvents to give the adducts [(PMKSC-H)CuL_s]Cl which were isolated and characterized.     

Studies on mixed ligand complexes,part 5. Heterochelate complexes of cobalt(III) derived from the quadridentate NNNN donor ligand triethylenetetramine and bidentate OO,ON and NN donor ligands

Summary A series of new cobalt(III) complexes of general formula [Co(AA)(trien)]X_n (where AA = tropolone, acetoacetanilide, ethylacetoacetate, biguanide, 2-guanidinobenzimidazole, propylenediamine, picolylamine, 2,2-dipyridyl, 3-aminopyridine, picolinic acid and quinaldinic acid, trien = triethylenetetramine, X=Cl^–, Br^–, I^– and n=2–3) have been synthesized and characterized by elemental analysis, electronic and i.r. spectra, equivalent weight, conductance and magnetic measurements. The electronic spectra of the complexes exhibit one or two ligand field bands atca. 20000 and 29000 cm^–1 due to the¹ A _1g ¹ T _1g and¹ A _1g ¹ T _2g transitions respectively. Conductance measurements indicate the triunivalent nature of [Co(tropolone)(trien)]I₃, [Co(picolylamine)(trien)]I₃, [Co(3-aminopyridine)(trien)]I₃, [Co(2,2-dipyridyl)(trien)]Cl₃, [Co(biguanide)(trien)]I₃, [Co(propylenediamine)(trien)]I₃ and biunivalent nature of [Co(picolinate)(trien)]Cl₂, [Co(quinaldinate)(trien)]Cl₂, [Co(acetoacetanilido)(trien)]Cl₂, and [Co(ethylacetoacetato)(trien)]I₂. Equivalent weight determination by the ion-exchange resin (H⁺ form) method gives the values of molecular weights which are consistent with the theory. The complexes are diamagnetic.