Dissociation of Doubly Charged Clusters of Lithium Acetate: Asymmetric Fission and Breakdown of the Liquid Drop Model

June 8, 2016

Journal Article

Dissociation of Doubly Charged Clusters of Lithium Acetate: Asymmetric Fission and Breakdown of the Liquid Drop Model

Abstract

Unimolecular and collision-induced dissociation of doubly charged lithium acetate clusters, (CH3COOLi)nLi22+, demonstrated that Coulomb fission via charge separation is the dominant dissociation process with no contribution from the neutral evaporation processes for all such ions from the critical limit to larger cluster ions, although latter process have normally been observed in all earlier studies. These results are clearly in disagreement with the Rayleigh’s liquid drop model that has been used successfully to predict the critical size and explain the fragmentation behavior of multiply charged clusters.

Revised: March 4, 2020 | Published: June 8, 2016

Citation

Shukla A.K. 2016. Dissociation of Doubly Charged Clusters of Lithium Acetate: Asymmetric Fission and Breakdown of the Liquid Drop Model. Rapid Communications in Mass Spectrometry 30, no. 13:1576-1580. PNNL-SA-114548. doi:10.1002/rcm.7597