Ion and velocity map imaging for surface dynamics and kinetics.

Harding, D. J.; Neugebohren, J.; Hahn, H.; Auerbach, D. J.; Kitsopoulos, T. N.; Wodtke, A. M.

doi:10.1063/1.4983307

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Ion and velocity map imaging for surface dynamics and kinetics.

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Harding, D. J.
Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society;

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Neugebohren, J.
Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society;

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Hahn, H.
Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society;

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Auerbach, D. J.
Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society;

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Kitsopoulos, T. N.
Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society;

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Wodtke, A. M.
Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society;

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Zitation

Harding, D. J., Neugebohren, J., Hahn, H., Auerbach, D. J., Kitsopoulos, T. N., & Wodtke, A. M. (2017). Ion and velocity map imaging for surface dynamics and kinetics. Journal of Chemical Physics, 147(1): 013939. doi:10.1063/1.4983307.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-002D-6F1E-F

Zusammenfassung

We describe a new instrument that uses ion imaging to study molecular beam-surface scattering and surface desorption kinetics, allowing independent determination of both residence times on the surface and scattering velocities of desorbing molecules. This instrument thus provides the capability to derive true kinetic traces, i.e., product flux versus residence time, and allows dramatically accelerated data acquisition compared to previous molecular beam kinetics methods. The experiment exploits non-resonant multiphoton ionization in the near-IR using a powerful 150-fs laser pulse, making detection more general than previous experiments using resonance enhanced multiphoton ionization. We demonstrate the capabilities of the new instrument by examining the desorption kinetics of CO on Pd(111) and Pt(111) and obtain both pre-exponential factors and activation energies of desorption. We also show that the new approach is compatible with velocity map imaging.