Add to ORKGAlthough the currently available surface spectroscopic techniques provide powerful means of studying atoms and simple molecules on surfaces, the identification of complex molecules and functional groups is a major concern in surface analysis. This article describes a recently developed method of surface molecular analysis based on reactive ion scattering (RIS) of low energy (< 100 eV) Cs+ beams. The RIS method can detect surface molecules via a mechanism in which a Cs+ projectile picks up an adsorbate from the surface during the scattering process. The basic principles of the method are reviewed and its applications are discussed by showing several examples from studies of molecules and their reactions on surfaces
Two important aspects of low energy ion/surface collisions, ion/surface reactions and surface modifi...
The energy distribution of low-energy ions (1-2 keV) scattered at some specific angle from a solid s...
In this Perspective, we highlight some recent progress in the reactive scattering of "chemical probe...
Cs+ ion beams are scattered from an Si(lll) surface chemisorbed with water. Scattering of Cs+ ions f...
Reactive ion scattering spectrometry (RISS) utilizing low energy (tens of eV) polyatomic ions was em...
Ion scattering techniques have demonstrated capability to probe the composition and structure of the...
This article provides a perspective on collisions of ions with surfaces, including surface-induced d...
Noble gas ions which are back-scattered from crystal surface lose a specific amount of energy for su...
Noble gas ions which are back-scattered from crystal surface lose a specific amount of energy for su...
Collisions of ions with surfaces in the hyperthermal energy range (1–100 eV) are advantageous in tha...
Low-energy (0.1-10 keV) ion scattering (LEIS) can be used to analyze the atomic composition of the o...
The use of molecular beams to study chemical dynamics at surfaces is outlined. The techniques is bri...
We discuss the possibilities to apply low energy ion scattering (LEIS) for in situ surface analysis ...
The possibilities of low-energy ion scattering spectroscopy for surface analysis are discussed. By c...
This objective of this project is to study the dynamics of the interactions of low energy ions impor...
Two important aspects of low energy ion/surface collisions, ion/surface reactions and surface modifi...
The energy distribution of low-energy ions (1-2 keV) scattered at some specific angle from a solid s...
In this Perspective, we highlight some recent progress in the reactive scattering of "chemical probe...
Cs+ ion beams are scattered from an Si(lll) surface chemisorbed with water. Scattering of Cs+ ions f...
Reactive ion scattering spectrometry (RISS) utilizing low energy (tens of eV) polyatomic ions was em...
Ion scattering techniques have demonstrated capability to probe the composition and structure of the...
This article provides a perspective on collisions of ions with surfaces, including surface-induced d...
Noble gas ions which are back-scattered from crystal surface lose a specific amount of energy for su...
Noble gas ions which are back-scattered from crystal surface lose a specific amount of energy for su...
Collisions of ions with surfaces in the hyperthermal energy range (1–100 eV) are advantageous in tha...
Low-energy (0.1-10 keV) ion scattering (LEIS) can be used to analyze the atomic composition of the o...
The use of molecular beams to study chemical dynamics at surfaces is outlined. The techniques is bri...
We discuss the possibilities to apply low energy ion scattering (LEIS) for in situ surface analysis ...
The possibilities of low-energy ion scattering spectroscopy for surface analysis are discussed. By c...
This objective of this project is to study the dynamics of the interactions of low energy ions impor...
Two important aspects of low energy ion/surface collisions, ion/surface reactions and surface modifi...
The energy distribution of low-energy ions (1-2 keV) scattered at some specific angle from a solid s...
In this Perspective, we highlight some recent progress in the reactive scattering of "chemical probe...