ESR matrix isolation investigation of the aluminum hydride radical cation−AlH+

15 November 1979

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 71 (10) , 3991-3995
https://doi.org/10.1063/1.438154

Abstract

The AlH+ radical cation has been trapped in a neon matrix at 4 K and studied via electron spin resonance spectroscopy (ESR). The magnetic parameters are Al: A∥=1009(3), A⊥=877(3) and H: A∥=A⊥=283(3) MHz; g∥=2.002(1) and g⊥=2.000(1). The isotropic and dipolar hyperfine components were calculated from ab initio CI and SCF type wave functions for comparison with experimental results. AlH+ is the first paramagnetic molecular cation studied via rare gas matrix isolation ESR spectroscopy.

Keywords

This publication has 36 references indexed in Scilit:

High-temperature generation and ESR matrix isolation studies of ZnF and CdF in neon and argon matrices
Journal of Magnetic Resonance (1969), 1978
Electron spin resonance of the ytterbium fluoride molecule at 4 K
The Journal of Physical Chemistry, 1978
Hyperfine fields at the ${}^{57}{Fe}$ nucleus in monovalent iron ( ${}^{6}D, 3 d^{6} 4 s$ ) isolated in solid xenon
Physical Review B, 1978
Laser Excited Fluorescence Studies of Matrix Isolated C2−
The Journal of Chemical Physics, 1972
Hyperfine Interaction and Chemical Bonding in the BeH Molecule
The Journal of Chemical Physics, 1972
Generation and ESR study of charged species in range-gas matrices
Accounts of Chemical Research, 1971
C2 and C2− Spectra Produced by the X Irradiation of Acetylene in Rare-Gas Matrices
The Journal of Chemical Physics, 1971
AlO Molecule and the Regular and Inverted II State Anomaly
The Journal of Chemical Physics, 1970
Infrared spectra and bonding in the sodium superoxide and sodium peroxide molecules
The Journal of Physical Chemistry, 1969
Electron Spin Resonance of Atomic and Molecular Free Radicals Trapped at Liquid Helium Temperature
Physical Review B, 1958