Journal ArticleDOI
Coherent X‐Ray Scattering for the Hydrogen Atom in the Hydrogen Molecule
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In this paper, the x-ray form factors for a bonded hydrogen in the hydrogen molecule have been calculated for a spherical approximation to the bonded atom, and the corresponding complex scattering factors have also been calculated.Abstract:
The x‐ray form factors for a bonded hydrogen in the hydrogen molecule have been calculated for a spherical approximation to the bonded atom. These factors may be better suited for the least‐squares refinement of x‐ray diffraction data from organic molecular crystals than those for the isolated hydrogen atom. It has been shown that within the spherical approximation for the bonded hydrogens in H2, a least‐squares refinement of the atomic positions will result in a bond length (Re value) short of neutron diffraction or spectroscopic values. The spherical atoms are optimally positioned 0.07 A off each proton into the bond. A nonspherical density for the bonded hydrogen atom in the hydrogen molecule has also been defined and the corresponding complex scattering factors have been calculated. The electronic density for the hydrogen molecule in these calculations was based on a modified form of the Kolos—Roothaan wavefunction for H2. Scattering calculations were made tractable by expansion of a plane wave in spheroidal wavefunctions.read more
Citations
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Journal ArticleDOI
The Structures of trans-Dichloro- and trans-Bis(isothiocyanato)nickel(II) Complexes with 1,4,8,11-Tetraazacyclotetradecane, 1,4,8,12-Tetraazacyclopentadecane, and 1,5,9,13-Tetraazacyclohexadecane. The Negative Correlation between the Axial and In-plane Coordination Bond Lengths in Tetragonal Ni(II) Complexes of the trans-NiX2N4 Type
TL;DR: In this article, the molecular structures of the six titled compounds, which contain 14-membered, 15-mbered, or 16-mimbered tetraazamacrocyclic ligands, have been determined by single crystal X-ray analyses.
Journal ArticleDOI
Rhodium iminophosphine complexes as efficacious oxygen carriers. Crystal structure of a representative dioxygen adduct
TL;DR: In this article, the synthesis, characterization and reactivity of some square-planar rhodium(I) complexes with new bidentate ligands o-Ph2PC6H4CHNR (R = Et, Prn, Pri or But) having NP donor atoms have been investigated.
Journal ArticleDOI
Mechanism of hydroxylamine mutagenesis. Crystal structure and conformation of 1,5-dimethyl-N4-hydroxycytosine.
TL;DR: It is shown that a similar situation may prevail for N4-hydroxycytosine nucleosides, and the implications with regard to the molecular mechanism of hydroxylamine mutagenesis, with particular reference to the T-even bacteriophages are discussed.
Journal ArticleDOI
Reactions of (tertiary phosphine)gold(I) substituted imidazoles or pyrazolones with acidic reagents: protonation, zole displacement, and adduct formation. Crystal structure determination of the adduct 1-methyl-2-(cyclohexylphosphinegoldthiolato)imidazole · 2benzimidazole
TL;DR: In this paper, the crystal structure of the adduct 1-methyl-2(cyclohexylphosphinegoldthiolato)imidazole sd 2benzimidaxole is shown.
References
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Journal ArticleDOI
The Physical Nature of the Chemical Bond
TL;DR: In this article, the quantum mechanical wave functions of molecules are discussed and an attempt is made to effect a simultaneous regional and physical partitioning of the molecular density, the molecular pair density, and the molecular energy, in such a way that meaningful concepts can be associated with the density and energy fragments thus formed.
Journal ArticleDOI
Accurate Electronic Wave Functions for the H 2 Molecule
W. Kolos,Clemens C. J. Roothaan +1 more
Journal ArticleDOI
The Problem of the Normal Hydrogen Molecule in the New Quantum Mechanics
TL;DR: The solution of Schroedinger's equation for the normal hydrogen molecule is approximated by the function $C[{e}^{\ensuremath{-}\frac{z({r}_{1}+{p}_{2})}{a}}+{e^{\ensem{-]-{m{e})+{m}−m{n}−n}]$ where m is the distance of one of the electrons to the two nuclei, and r is the distances of one electron to the other electron.
Journal ArticleDOI
The Normal State of the Hydrogen Molecule
TL;DR: In this paper, a simple wave function for the normal state of the hydrogen molecule, in which both the atomic and ionic configurations are taken into account, was set up and treated by a variational method.
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