Microscopic Insights into the Sputtering of Thin Organic Films on Ag{111} Induced by C60 and Ga Bombardment
- 25 May 2005
- journal article
- research article
- Published by American Chemical Society (ACS) in The Journal of Physical Chemistry B
- Vol. 109 (24), 11973-11979
- https://doi.org/10.1021/jp050821w
Abstract
Molecular dynamics computer simulations have been employed to model the bombardment of Ag{111} covered with three layers of C6H6 by 15 keV Ga and C60 projectiles. The study is aimed toward examining the mechanism by which molecules are desorbed from surfaces by energetic cluster ion beams and toward elucidating the differences between cluster bombardment and atom bombardment. The results show that the impact of the cluster on the benzene-covered surface leads to molecular desorption during the formation of a mesoscopic scale impact crater via a catapulting mechanism. Because of the high yield of C6H6 with both Ga and C60, the yield enhancement is observed to be consistent with related experimental observations. Specific energy and angle distributions are shown to be associated with the catapult mechanism.Keywords
This publication has 49 references indexed in Scilit:
- The Magic of Cluster SIMSAnalytical Chemistry, 2005
- Use of C60 cluster projectiles for sputter depth profiling of polycrystalline metalsSurface and Interface Analysis, 2004
- Depth profiling studies of multilayer films with a C60+ ion sourceApplied Surface Science, 2004
- C60 molecular depth profiling of a model polymerApplied Surface Science, 2004
- A C60 Primary Ion Beam System for Time of Flight Secondary Ion Mass Spectrometry: Its Development and Secondary Ion Yield CharacteristicsAnalytical Chemistry, 2003
- View from the edgeNature, 2003
- Development and experimental application of a gold liquid metal ion sourceApplied Surface Science, 2002
- Development of a C60+ ion gun for static SIMS and chemical imagingApplied Surface Science, 2002
- Use of an SF5+ polyatomic primary ion beam for ultrashallow depth profiling on an ion microscope secondary ion mass spectroscopy instrumentJournal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 2000
- Secondary ion emission from polymer surfaces under Ar+, Xe+ and SF5+ ion bombardmentApplied Surface Science, 1998