Lahaye Rob J, Kang Heon
School of Chemistry, Seoul National University, Kwanak-gu, Seoul 151-742, South Korea.
Chemphyschem. 2004 May 17;5(5):697-705. doi: 10.1002/cphc.200300983.
We have employed a classical molecular dynamics simulation for the direct pick-up reaction of adsorbates by very low energy (1-60 eV) ions scattered at a surface. The system investigated is the reactive ion scattering (RIS) of Cs+ with an adsorbate on a Pt(111) surface. The ion-dipole attraction between the projectile and the physisorbed adsorbate drives the abstraction reaction, in which the ion projectile at first collides with the surface to release a substantial amount of its kinetic energy, and subsequently pulls the adsorbate along in the outgoing trajectory. Desorption induced by the ion-dipole attraction is a precursor to the formation of the Cs(+)-adsorbate product. This Eley-Rideal-type mechanism must accommodate the inertia of the adsorbate. Consequently, a successful abstraction works well only for low mass adsorbates and slow outgoing Cs+ ions. The efficient energy transfer to the Pt(111) surface makes Cs+ a better candidate for RIS than lighter projectile ions. Optimal conditions for the efficient RIS abstraction mechanism are found for physisorbed adsorbates with a mass below 32 amu, and for 10 eV Cs+ ions at a 45 degrees incidence.
我们采用经典分子动力学模拟研究了极低能量(1 - 60电子伏特)离子在表面散射时对吸附质的直接拾取反应。所研究的体系是Cs⁺与Pt(111)表面上吸附质之间的反应性离子散射(RIS)。入射粒子与物理吸附的吸附质之间的离子 - 偶极吸引力驱动了提取反应,在该反应中,入射离子首先与表面碰撞以释放大量动能,随后在出射轨迹中拉动吸附质。由离子 - 偶极吸引力引起的解吸是Cs(⁺)-吸附质产物形成的前驱过程。这种埃利 - 里德耳型机制必须考虑吸附质的惯性。因此,成功的提取仅适用于低质量吸附质和慢速出射的Cs⁺离子。向Pt(111)表面的高效能量转移使Cs⁺比轻的入射离子更适合用于反应性离子散射。对于质量低于32原子质量单位的物理吸附吸附质以及45度入射角的10电子伏特Cs⁺离子,找到了高效反应性离子散射提取机制的最佳条件。