Electron-hole pair excitation determines the mechanism of hydrogen atom 
adsorption.

Bünermann, O.; Jiang, H.; Dorenkamp, Y.; Kandratsenka, A.; Janke, S. M.; Auerbach, D. J.; Wodtke, A. M.

doi:10.1126/science.aad4972

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Electron-hole pair excitation determines the mechanism of hydrogen atom adsorption.

Bünermann, O., Jiang, H., Dorenkamp, Y., Kandratsenka, A., Janke, S. M., Auerbach, D. J., et al. (2015). Electron-hole pair excitation determines the mechanism of hydrogen atom adsorption. Science, 350(6266), 1346-1349. doi:10.1126/science.aad4972.

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Item Permalink: https://hdl.handle.net/11858/00-001M-0000-0029-1DBF-A Version Permalink: https://hdl.handle.net/21.11116/0000-0003-2E1E-A

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Creators:
Bünermann, O.¹, Author
Jiang, H.¹, Author
Dorenkamp, Y.¹, Author
Kandratsenka, A.¹, Author
Janke, S. M.¹, Author
Auerbach, D. J.¹, Author
Wodtke, A. M.¹, Author

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1Department of Dynamics at Surfaces, MPI for Biophysical Chemistry, Max Planck Society, ou_578600

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Abstract: How much translational energy atoms and molecules lose in collisions at surfaces determines whether they adsorb or scatter. The fact that hydrogen (H) atoms stick to metal surfaces poses a basic question. Momentum and energy conservation demands that the light H atom cannot efficiently transfer its energy to the heavier atoms of the solid in a binary collision. How then do H atoms efficiently stick to metal surfaces? We show through experiments that H-atom collisions at an insulating surface (an adsorbed xenon layer on a gold single-crystal surface) are indeed nearly elastic, following the predictions of energy and momentum conservation. In contrast, H-atom collisions with the bare gold surface exhibit a large loss of translational energy that can be reproduced by an atomic-level simulation describing electron-hole pair excitation.

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Language(s): eng - English

Dates: Published Online: 2015-11-26Date issued: 2015-12-11

Publication Status: Issued

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Rev. Type: Peer

Identifiers: DOI: 10.1126/science.aad4972

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Title: Science

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Pages: - Volume / Issue: 350 (6266) Sequence Number: - Start / End Page: 1346 - 1349 Identifier: -