MICROWAVE SPECTRA AND STRUCTURES OF H$_{4}$C$_{2}$$\cdots$AgCl AND H$_{4}$C$_{2}$$\cdots$CuCl
Date
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
A Balle-Flygare FT-MW spectrometer coupled to a laser ablation source has been used to measure the pure rotational spectra of H${4}$C${2}$$\cdots$AgCl and H${4}$C${2}$$\cdots$CuCl. Both molecules are generated via laser ablation (532 nm) of a metal rod in the presence of CCl${4}$, C${2}$H${4}$ and argon and are stabilized by supersonic expansion. Rotational constants ({\it{A}}${0}$, {\it{B}}${0}$, {\it{C}}${0}$) and the centrifugal distortion constant, {\it{D}}${\it{J}}$, have been measured for six isotopologues of H${4}$C${2}$$\cdots$AgCl and five isotopologues of H${4}$C${2}$$\cdots$CuCl with substitutions at the metal, chlorine and carbon atoms in each case. The spectrum of each molecule is consistent with a {\it{C}}${2v}$ structure in which the metal atom interacts with the ${\pi}$-orbital on ethene. The measured rotational constants allow determination of the length of the bond between the metal and chlorine atoms, {\it{r}${\rm{MCl}}$}, and the distance between the metal atom and the centre of the ethene double bond, {\it{r}${\rm{MEt}}$}. Nuclear quadrupole coupling constants have been determined for the chlorine atom in each molecule and also for copper in H${4}$C${2}$$\cdots$CuCl.
Description
Author Institution: School of Chemistry, University of Bristol, Bristol, BS8 1TS, U.K.