Journal ArticleDOI
Double‐Bond Character of Conjugated Carbon‐Chlorine Bonds
Reads0
Chats0
TLDR
In this paper, the π electron loss of a chlorine atom conjugated with a resonating system can be obtained at least approximately from experimental measurements of the asymmetry of the chlorine nuclear electric quadrupole interaction.Abstract:
The π electron loss of a chlorine atom conjugated with a resonating system can be obtained at least approximately from experimental measurements of the asymmetry of the chlorine nuclear electric quadrupole interaction. Using molecular orbital theory the π electron loss ρ can be simply expressed in terms of the chlorine Coulomb integral, the carbon‐chlorine resonance integral, and the energies and wave functions of the system with which the chlorine atom is conjugated. Comparison of theoretical and experimental values of ρ show that the carbon‐chlorine resonance integral is about one‐third of the carbon‐carbon resonance integral. The basic conclusion is that chlorine atoms in general resonate only weakly with attached aromatic systems. Most of the effects previously ascribed to double bond character can alternatively be explained by an increased electronegativity of the carbon sp2 orbital.read more
Citations
More filters
Journal ArticleDOI
Induction Studies in Several Groups of Halogen‐Containing Organic Compounds by Their Cl35, Br79, or Br81 Pure Quadrupole Resonance Spectra
H. O. Hooper,P. J. Bray +1 more
TL;DR: In this paper, a linear relationship between the Cl35 resonance frequency and Hammett σ values has been found for some straight-chain organic compounds, such as anthraquinone and bromine quadrupole frequencies.
Journal ArticleDOI
Estimates of Hammett's Sigma Values from Quadrupole Resonance Studies
P. J. Bray,R. G. Barnes +1 more
TL;DR: A linear correlation exists between the Cl35 pure quadrupole resonance frequency in substituted chlorobenzenes and the Hammett parameter sigma for the substituent as mentioned in this paper.
Journal ArticleDOI
Quadrupole Coupling and Bond Character in the Vinyl Halides
TL;DR: In this article, quadrupole coupling data obtained from microwave spectroscopy are utilized in assessing double-bond character in planar molecules such as the vinyl halides and the effect of structural uncertainties have been considered in detail.
Journal ArticleDOI
Microwave Spectrum and Structure of Chlorine Azide
Robert L. Cook,M. C. L. Gerry +1 more
TL;DR: In this paper, the microwave spectra of four isotopic species of chlorine azide, ClN3, have been observed in the frequency range 26-48 GHz, and from the measured values of the rotational constants, the molecule has been deduced to be planar with the following internuclear parameters.
Journal ArticleDOI
Lowest Triplet State of Substituted Benzenes. I. The Optically Detected Magnetic Resonance of para‐Dichlorobenzene
M. J. Buckley,C. B. Harris +1 more
TL;DR: In this article, the optically detected magnetic resonance (ODMR) of para-dichlorobenzene in its first 3ππ* state was reported, and the structures of the three zero-field transitions were interpreted in terms of a Hamiltonian incorporating the electron spin, nuclear quadrupole, and chlorine hyperfine interactions.
References
More filters
Journal ArticleDOI
Formulas and Numerical Tables for Overlap Integrals
Abstract: Explicit formulas and numerical tables for the overlap integral S between AO's (atomic orbitals) of two overlapping atoms a and b are given. These cover all the most important combinations of AO pairs involving ns, npσ, and npπ AO's. They are based on approximate AO's of the Slater type, each containing two parameters μ [equal to Z/(n—δ)], and n—δ, where n—δ is an effective principal quantum number. The S formulas are given as functions of two parameters p and t, where p=½(μa+μb)R/aH , R being the interatomic distance, and t=(μa—μb)/(μa+μb). Master tables of computed values of S are given over wide ranges of p and t values corresponding to actual molecules, and also including the case p=0 (intra‐atomic overlap integrals). In addition, tables of computed S values are given for several cases involving 2‐quantum s, p hybrid AO's.Hybrid S values for any desired type of hybrid can be obtained very easily from the tables as simple linear combinations of non‐hybrid S values. It is shown how S values correspondin...
Journal ArticleDOI
Quantentheoretische Beiträge zum Problem der aromatischen und ungesättigten Verbindungen. III
TL;DR: In this paper, the Elektronenkonfiguration ungesattigter and aromatischer Verbindungen nach den in fruheren Arbeiten des Verfassers benutzten Ansatzen and Methoden untersucht.
Journal ArticleDOI
The electronic structure of conjugated systems; general theory.
TL;DR: In this article, the general theory of conjugated systems by the method of molecular orbitals was developed, and the electron densities and bond orders appeared as first-order derivatives of the energy of the mobile electrons with respect to the energy integrals in the secular equations; and various other relations were established which confirm the appropriateness of the definitions.
Journal ArticleDOI
The electronic structure of conjugated systems II. Unsaturated hydrocarbons and their hetero-derivatives
TL;DR: The theory of Part I (Coulson & Longuet-Higgins 1947) is applied to hydrocarbons and their hetero-derivatives in this paper and an equation relating differences in activation energy to electron densities and atom polarizabilities for a heterolytic reaction at different positions in a conjugated system.
Journal ArticleDOI
Correlation of Hammett's σ-Values with Electron Densities Calculated by Molecular Orbital Theory
TL;DR: In this paper, it was shown that Hammett's σ−values can be correlated with electron densities calculated by the MO LCAO method, which can be used to calculate reasonable values for absorption frequencies, mesomeric moments, and orienting power of the substituents.
Related Papers (5)
Determination of Electronic Structure of Molecules from Nuclear Quadrupole Effects
Estimates of Hammett's Sigma Values from Quadrupole Resonance Studies
P. J. Bray,R. G. Barnes +1 more