Termolecular Ion–Molecule Reactions in Titan's Atmosphere: III. Clustering of Ions

The FA-SIFT experiment at Canterbury was used to determine some of the principal termolecular ion-molecule reactions that occur in the atmosphere of Titan, Saturn's satellite. The experiments were performed using both a pure nitrogen bath gas and a pure helium bath gas. The reactions of the ions N

## Abstract The results of high‐pressure variable‐temperature and variable ionizing electron energy studies of gas‐phase ion‐molecule reactions of dimethyl ether in krypton are presented. Near the ionization threshold a series of peaks corresponding to (CH~3~OCH~3~)~__n__~H^+^ (__n__ = 1‐4) cluster

Nestive ions zue shown to lad to so!vated ions in 'he \_ms phzsse by rcsction with estew of formic acid w&n two requirements ar"-mat: (1) the bond energy of the cluster is grezter than 9.3 kczljmole, and (2) the proton nfimity of the negative ion is gcater tisn 3:9 kcaliniole. A likely mechanism for

The reactions of C,Sc+ (n = 2-6) with O2 have been studied by using an rf ion trap. C&c+ was produced by the laser ablation of a mixed sample of graphite and scandium. Observed reaction product ions were ScO+ for all C,Sc.+, and BcD: only for C.Sc+ with odd n. In the case of C&c+, the loss of 2C neu

The analysis of a targeted group of nucleoside antibiotics has been accomplished through the use of selective ion-molecule reactions and collision-activated dissociation (CAD) techniques in a quadrupole ion trap. A series of homologous ether reagent ions generated from dimethyl ether, di-n-butyl eth