Doctoral Dissertations
Date of Award
5-1995
Degree Type
Dissertation
Degree Name
Doctor of Philosophy
Major
Chemistry
Major Professor
Charles S. Feigerle
Abstract
Mixed clusters of the form (NO)m+ (Ar)n (m ≤ 4 ≤ 22) were produced in a supersonic expansion and ionized by nonresonant two-photon absorption of 30 ps, 266 nm photons. The cluster distribution exhibited intensity anomalies for NO+ (Ar)n (n = 12, 18, and 22) and (NO)2+ (Ar)n (n = 17, 21). These “magic numbers”, at m + n = 13, 19, 23 were compared with those observed in rare gas and other M+ Arn clusters and were assigned to symmetric and stable icosahedral structures. Four-photon ionization with 30 ps, 532 nm light yielded a cluster distribution in which only the NO+ (Ar)n cluster series was observed. The known photodissociation of (NO)2+ and (NO)3+ and the cluster distributions obtained at 266, 355, and 532 nm light suggested that the dissociation of (NO)m+ (Ar)n (m > 1) was taking place in the ion.
A variety of binary heteroclusters of the form (NO)m(Y)n, where Y = N2O, CO2, NO2, H2O, CS2, SO2 and SF6 were investigated by coexpanding nitric oxide, argon and the complexing agent. Cluster distributions of the (NO)m+ exhibited an odd-even intensity alternation which was explained by electron pairing effects and differences in the relative stabilities of the cluster ions which are enhanced by the kinetic effects in the evaporation process. The observation of the exceptionally stable (NO)3+ (Y)n cluster series is of particular interest and possible structures for these species are discussed.
The vibronic spectroscopy of NO, ArNO, CH4NO and CD4NO was investigated using mass resolved REMPI. Spectra for NO are presented for transitions associated with the A2∑+ state (v = 2 and 3). Multiphoton ionization spectra are also presented for various van der Waals molecules, namely ArNO, CH4NO, and CD4NO. The spectra were obtained via a two-photon electronic transition associated with the C2∏ (v = 0) state of nitric oxide. Dissociation energies of the ground and excited states of the vdW molecules are discussed.
Laser induced polymerization was investigated in clusters of carbon disulfide. The observation of various ionic photoproducts such as (S)m+, (CS)m+, Sm+, (CS2)n, (CS2)m+ and CSm+ (CS2)n is attributed to a cycle of ion-molecule reactions occurring entirely within an isolated cluster of carbon disulfide.
Recommended Citation
Desai, Sunil Ramesh, "Multiphoton Ionization of Molecular Clusters. " PhD diss., University of Tennessee, 1995.
https://trace.tennessee.edu/utk_graddiss/7518