Volume 65, 1969
From the journal:

Transactions of the Faraday Society

Microwave spectrum, structure, low frequency vibrations, dipole moment and quadrupole coupling constants of dinitrogen trioxide

Alan H. Brittain,   A. Peter Cox  and  Robert L. Kuczkowski  

Abstract

The structure of N2O3 has been determined from the microwave spectrum of seven isotopic species. The detailed structure associated with the following planar configuration is: [graphic omitted] d(N2N3)= 1.864 Å; d(N2O1)= 1.142 Å; d(N3O4)= 1.202 Å; d(N3O5)= 1.217 Å; ∠O1N2N3= 105.1°∠O4N3N2= 112.7°∠O5N3N2= 117.5°. The torsional vibrational frequency has been measured as 124 ± 25 cm–1. The quadrupole coupling constants for the nitrosyl nitrogen are χaa=–2.34 MHz, χbb= 1.12 MHz, and χcc= 1.22 MHz. The dipole moment has been determined as |µa|= 2.05 D; |µb|= 0.54 D; and |µt|= 2.12 D inclined at an angle of 9.1° to the N—N bond. On the basis of these data, the bonding is discussed.

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Article information

DOI
https://doi.org/10.1039/TF9696501963
Article type
Paper

Trans. Faraday Soc., 1969,65, 1963-1974

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Microwave spectrum, structure, low frequency vibrations, dipole moment and quadrupole coupling constants of dinitrogen trioxide

A. H. Brittain, A. P. Cox and R. L. Kuczkowski, Trans. Faraday Soc., 1969, 65, 1963 DOI: 10.1039/TF9696501963

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