Photochemical and chemical oxidation of alpha-dimine-dithiolene metal complexes: insight into the role of the metal atom

[Pd(bpy)(bdt)], 2 (bpy = 2,2'-bipyridine, bdt = 1,2-benzenedithiolate), was prepared in good yield by the reaction of bdtNa2 with [(bpy)PdCl2] in DMSO. The analogous nickel complex, 1, was prepared in a similar reaction using MeOH/CH2Cl2 and [(bpy)NiCl2.dmf]2. Both 1 (a = 7.9920(1) A, b = 11.4385(1) A, c = 16.1415(1) A, beta = 103.327(1) degrees, V = 1435.86(2) A3, Z = 4) and 2 (a = 8.1631(5) A, b = 11.4379(7) A, c = 16.2475(10) A, beta = 103.7010(10) degrees, V = 1473.84(12) A3, Z = 4) crystallize in the monoclinic space group P2(1)/c and are isostructural with their previously reported platinum analogue. In accord with the results observed for platinum but not nickel, photochemical oxidation of 2 in DMF provides the monosulfinate complex [Pd(bpy)(bdtO2)], 4, along with a minor amount of the corresponding disulfinate [Pd(bpy)(bdtO4)], 5, while chemical oxidation yields only the latter. 4 cocrystallizes with 5 in the monoclinic space group P2(1)/c (a = 8.026(3) A, b = 14.600(6) A, c = 13.371(3) A, beta = 101.80(3) degrees, V = 1533.8(9) A3, Z = 4) as does pure 5 (a = 8.5611(9) A, b = 14.4586(15) A, c = 13.3677(14) A, beta = 108.122(2) degrees, V = 1572.6(3) A3, Z = 4). Comparison of spectroscopic and electrochemical properties of the three complexes, [M(bpy)(bdt)], yields the following ordering for the energy of the HOMO: Pd < Ni < Pt. The observed reactivity patterns and the electronic data suggest that the "anomalous" reactivity of 1 be attributed to the greater relative flexibility of the coordination geometry for nickel(II) complexes rather than electronic differences such as the energies of the frontier orbitals.     

New fluorescent chemosensors for metal ions in solution

After a brief introduction on the main transduction mechanisms for metal ion detection by fluorescence, this paper reviews ligand molecules containing fluorophores synthesized and employed in metal ions sensing in solution in the last few years. With the aim of making more readable the paper we have organized it by dividing the subject first for type of fluorophore, then type of metal ion. Because of many acronyms a glossary has been inserted.     

S-Methylation of polythiolactam: chemical transformation of macrocyclic anion receptor into new macrocyclic ligand for metal ions

The S-methylation of a macrocyclic tetrathiolactam afforded a new macrocyclic thioimidate that exhibited good affinity toward metal ions. The molecular structures of the macrocyclic ligand and its metal complexes were determined by X-ray crystallography.     

Detection of metal ions in aqueous solution by voltohmmetry

A new electrochemical detection principle is described for the trace analysis of dissolved species which can be deposited at polycrystalline thin-film metal electrodes and which change the surface resistance of the electrode. Because the latter parameter is measured in dependence on the applied electrode potential this method is called voltohmmetry. The preparation of the required thin-film electrodes and the experimental set-up is introduced and discussed. Typical voltohmmetric experiments are illustrated by measurements of Tl+/Tl at polycrystalline gold electrodes with a thickness of 15 nm. The analytical capabilities of this new approach are discussed. It is already possible to determine heavy metals such as Tl+, Pb2+ or Cd2+ in the range of a few microgram/L by surface resistance-potential measurements at thin-film electrodes with a simple cyclic technique. Further developments of voltohmmetry are envisaged.     

Polynuclear bismuth-oxo clusters: insight into the formation process of a metal oxide

The reaction of the bismuth silanolates [Bi(OSiR2R')3] (R = R' = Me, Et, iPr; R = Me, R' = tBu) with water has been studied. Partial hydrolysis gave polynuclear bismuth-oxo clusters whereas amorphous bismuth-oxo(hydroxy) silanolates were obtained when an excess of water was used in the hydrolysis reaction. The metathesis reaction of BiCl3 with NaOSiMe3 provided mixtures of heterobimetallic silanolates. The molecular structures of [Bi18Na4O20(OSiMe3)18] (2), [Bi33NaO38(OSiMe3)24].3 C7H8 (3.3 C7H8), [Bi50Na2O64(OH)2(OSiMe3)22].2 C7H8.2H2O (4.2 C7H8.2 H2O), [Bi4O2(OSiEt3)8] (5), [Bi9O7(OSiMe3)13].0.5 C7H8 (6. 0.5C7H8), [Bi18O18(OSiMe3)18)].2C7H8 (7. 2C7H8) and [Bi20O18(OSiMe3)24].3C7H8 (8.3C7H8) are presented and compared with the solid-state structures of [Bi22O26(OSiMe2tBu)14] (9) and beta-Bi2O3. Compound 2 crystallises in the triclinic space group P1 with the lattice constants a = 17.0337(9), b = 19.5750(14), c = 26.6799(16) A, alpha = 72.691(4), beta = 73.113(4) and gamma = 70.985(4) degrees ; compound 3.3C7H8 crystallises in the monoclinic space group P2(1)/n with the lattice constants a = 20.488(4), b = 22.539(5), c = 26.154(5) A and beta = 100.79(3) degrees ; compound 4.2C7H82 H2O crystallises in the monoclinic space group P2(1)/n with the lattice constants a = 20.0518(12), b = 24.1010(15), c = 27.4976(14) A and beta = 103.973(3) degrees ; compound 5 crystallises in the monoclinic space group P2(1)/c with the lattice constants a = 25.256(5), b = 15.372(3), c = 21.306(4) A and beta = 113.96(3) degrees ; compound 6.0.5C7H8 crystallises in the triclinic space group P1 with the lattice constants a = 15.1916(9), b = 15.2439(13), c = 22.487(5) A, alpha = 79.686(3), beta = 74.540(5) and gamma = 66.020(4) degrees ; compound 7.2C7H8 crystallises in the triclinic space group P1 with the lattice constants a = 14.8295(12), b = 16.1523(13), c = 18.4166(17) A, alpha = 75.960(4), beta = 79.112(4) and gamma = 63.789(4) degrees ; and compound 8.3C7H8 crystallises in the triclinic space group P1 with the lattice constants a = 17.2915(14), b = 18.383(2), c = 18.4014(18) A, alpha = 95.120(5), beta = 115.995(5) and gamma = 106.813(5) degrees . The molecular structures of the bismuth-rich compounds are related to the CaF2-type structure. Formally, the hexanuclear [Bi6O8]2+ fragment might be described as the central building unit, which is composed of bismuth atoms placed at the vertices of an octahedron and oxygen atoms capping the trigonal faces. Depending on the reaction conditions and the identity of R, the thermal decomposition of the hydrolysis products [Bi(n)O(l)(OH)(m-)(OSiR3)(3n-(2l-m))] gives alpha-Bi2O3, beta-Bi2O3, Bi12SiO20 or Bi4Si3O12.     

Separation of metal ions in nitrate solution by ultrasonic atomization

In the ultrasonic atomization of metal nitrate solutions, the molar ratio of metal ions is changed between solution and mist. Small molar metal ions tend to be transferred to mist by ultrasonic wave acceleration, while large molar ions tend to remain in solution. As a result, metal ions can be separated by ultrasonic atomization. We show experimental data and propose a conceptual mechanism for the ultrasonic separation of metal ions.     

Complexation of polymethacrylopiperidide with transition metal ions in aqueous solution

The interactions of polymethacrylopiperidide with Cu²⁺, Ni²⁺, Co²⁺ and Fe³⁺ ions have been investigated by potentiometric and conductometric titration, ESR and u.v. spectroscopy, viscometry and sedimentation. The average number of ligands coordinating with the central metal ions and the stability constants of polymeric metal complexes were determined. It is assumed that the polymethacrylopiperidide interacts with transition metal ions through the nitrogen atoms. The influence of spatial arrangement of donor atoms on the coordination ability of polyligand is discussed.     

Real and chemical solvation energies of individual ions in solution

On the basis of the proposed concept of real thermodynamic properties for individual ions in solution, the real thermodynamic properties of transport (resolvation) for various ions (sodium, potassium, chloride, bromide, and iodide) from water to mixtures of water with ethyl, n-propyl, and isopropyl alcohols, acetone, acetonitrile, dimethylsulfoxide, and dimethylformamide are determined by the method of Volta potential differences. Values of the chemical thermodynamic properties of transport of the ions under investigation are determined on the basis of previously calculated values of surface potentials of the solvents mentioned above. A comparative analysis of the values obtained is carried out, and characteristics of the solvation of ions of different sign are established as functions of their nature relative to the physicochemical and structural properties of the solvents. The satisfactory agreement of the data obtained on the basis of the total Gibbs energy of transport of the ions under investigation in the indicated solvents with literature data is the criterion of correctness for the scientific material presented in this paper.     

Structure and chemical activity of transition metal and metal oxide catalysts: An insight from theoretical DFT studies

The present theoretical DFT study discusses the structure and chemical activity of transition metal and metal oxide catalysts within the well-known cluster approach. Selective oxidation of carbon monoxide on gold supported on titania (Au/TiO₂ (110)) as well as some key points in understanding the effect of non-metal doping on TiO2 with the aim to increase its photocatalytic functionality have been briefly discussed. It was shown that Au (with formal oxidation state equal to plus one) stabilized on water-assisted and vacancy containing TiO₂ (110) can explain selective oxidation of CO. Here binding of O₂ with the vacancy site is energetically preferable than its adsorption on an Au site. Conversely, CO adsorbs on an Au center of Au/TiO₂ (110) which is energetically much more profitable than its interaction with the oxygen vacancy site. Also, carbon and nitrogen doping on TiO₂ (110) leads to two different structures. Energetically most profitable is that carbon occupies an interstitial position in deep bulk while nitrogen replaces the protruded oxygen atom and forms a surface N-H group.     

Heterogeneous chemical kinetics: A two-dimensional insight into sigmoidα-t curve

In discussing the interrelation between the wide variety of heterogeneous chemical reactions and the constant form of conventional kinetic a(t) and â(t) experimental curves, these curves are constructed in terms of 2D Dirichlet tessellations. In mathematical respect the result is the possibility to indicate 11 singular points on each curve, providing a more detailed treatment of experimental data. In chemical respect this enables one to take the diversity of crystal structures and chemical interactions into account.     

Model two-electron chemical bonds and the concept of electronegativity

Complete variationally correct calculations have been performed for model two-electron diatomic molecules using the Cottrell and Sutton Hamiltonian and Weinbaum, Wang and MO wave functions. Both homonuclear and heteronuclear systems have been studied. In homonuclear bonds between high Z atoms the MO function gives lower energies than the Wang function. The presence of ionic terms in the wave function is not necessary to show Pauling-type ionic resonance energy stabilization of heteronuclear molecules. The presence of ionic terms is important, however, to get the best energies, and is essential to achieve even approximately correct values of the dipole moments. The model systems predict that Pauling's correlation of dipole moments and electronegativity differences should show a dependence on A+B. This appears to be indicated by the experimental data.

---

Zusammenfassung Variationsrechnungen an zweiatomigen Zweielektronen-Modellmolekülen werden unter Verwendung des Hamilton-Operators von Cottrell und Sutton und einer MO-Funktion bwz. der Funktionen von Wang sowie Weinbaum durchgeführt. In homonuklearen Molekülen mit hoher Kernladungszahl gibt eine MO-Funktion eine tiefere Energie als die von Wang. Ionische Terme in der Wellenfunktion sind nicht nötig, um zu zeigen, daß eine Bindung in heteropolaren Molekülen gegenüber einer homöopolaren Bindung stabilisiert ist, wohl aber, um einen guten Wert für Energie und Dipolmoment zu erhalten. Die Paulingsche Korrelation von Dipolmoment und Elektronegativitätsdifferenz ist von der Summe der Elektronegativitäten abhängig.

---

Résumé Des calculs variationels complets ont été faits pour des molécules modèles diatomiques à deux électrons, en utilisant l'hamiltonien de Cottrell et Sutton et des fonctions d'onde O.M, de Weinbaum et de Wang. On a étudié des systèmes homonueléaires et hétéronucléaires. Pour les liaisons homonueléaires entre atomes à Z élevé la fonction O.M. donne des énergies plus faibles que la fonction de Wang. La présence des termes ioniques dans la fonction d'onde n'est pas nécessaire pour manifester une énergie de stabilisation par résonance ionique du type de Pauling pour les molécules hétéronucléaires. La présence de termes ioniques est importante cependant pour obtenir les meilleures énergies, et est essentielle pour avoir des valeurs même approximativement exactes des moments dipolaires. Les systèmes modèles prévoient que la corrélation de Pauling entre les moments dipolaires et les différences d'électronagativité devrait dépendre de A+B. C'est ce que semblent montrer les données expérimentales.

---

---

Contibution No. 345 from the Department of Chemistry, Tufts University.     

Orbital electronegativity and interaction of atoms in chemical compounds

A formula is suggested for the orbital electronegativity (OE) [1] in the calculation of the effective charges on atoms. This formula differs from that found in the literature [2] in that it takes electrostatic interaction into account. It is used with the self-consistent field method to calculate the effective charges on the atoms in a molecule XBeY, which are obtained for all the atoms of a molecule of the type ClBeX (X is F, Cl, Br, or I). It is shown that the effective negative charge on the Cl increases as the effective charge on X decreases (i.e., as the B-X bond becomes more covalent). Increased ionicity in this bond is generally due to the increased covalency in the opposite bond.     

New insight into the discrimination between omeprazole enantiomers by cyclodextrins in aqueous solution

We report results regarding the use of ¹H-NMR spectroscopy in the study of the conformational behaviour and optical activity of omeprazole. Changes in the chemical shifts of chosen atoms reveal that the conformational behaviour of omeprazole is temperature and pH sensitive. Separation and identification of omeprazole enantiomers in the presence of natural and derivative cyclodextrins, such as β-cyclodextrin (βCD) and methyl-β-cyclodextrin (MβCD) are achieved using ¹H-NMR spectroscopy, with information from molecular dynamics simulation. This work shows that βCD includes preferentially R-(–)-omeprazole, acting as a chiral selector. This discrimination of omeprazole enantiomers by cyclodextrins allows development of pharmaceutical formulations with a better bioavailability profile.     

An insight into chemical composition and bioactivity of 'Prokupac' red wine

Abstract

Autochthonous variety 'Prokupac' (Vitis vinifera L.) red wines with the addition of selected aromatic herbs (Artemisia absinthium, Cinnamomum zeylanicum, Glycyrrhiza glabra and Pimpinella anisum L.) were evaluated for chemical composition and biological activity. Furthermore, their polyphenolic profiles were determined by HPLC-DAD. While total phenolic (TPC) and flavonoid (TFC) contents, along with antioxidant activity, were significantly higher in all examined wine samples, the content of total anthocyanins was decreased, compared to a pure 'Prokupac' wine, used as the control one. On the other hand, 'Prokupac' wines with the addition of cinnamon (S. zeylanicum) and wormwood (A. absinthium) displayed highest antioxidant (EC₅₀, 0.021?±?0.001?mg/mL) and antibacterial (Enterococcus faecalis, MIC/MBC 15.63/62.50?μL/mL) activities, respectively. The study showed that 'Prokupac' wine with the addition of cinnamon was significantly enriched both with TPC and TFC, compared to control wine (p?<?0.05), which may contribute to its market potential.     

Molecular-dynamics simulations of alkaline-earth metal cations in water by atom-bond electronegativity equalization method fused into molecular mechanics

Intermolecular potential for alkaline-earth metal (Be(2+), Mg(2+), and Ca(2+)) cations in water has been derived using the atom-bond electronegativity equalization method fused into molecular mechanics (ABEEM/MM), and it is consistent with what was previously applied to the hydration study of the monovalent cations. Parameters for the effective interaction between a cation and a water molecule were determined, reproducing the ab initio results. The static, dynamic, and thermodynamic properties of Be(2+)(aq), Mg(2+)(aq), and Ca(2+)(aq) were studied using these potential parameters. Be(2+) requires a more complicated form of the potential function than Mg(2+) and Ca(2+) in order to obtain better fits. Strong influences of the twofold charged cations on the structures of the hydration shells and some other properties of aqueous ionic solutions are discussed and compared with the results of a previous study of monovalent cations in water. At the same time, comparative study of the hydration properties of each cation is also discussed. This work demonstrates that ABEEM/MM provides a useful tool in the exploration of the hydration of double-charged cations in water.