Single-Molecule Study of a Plasmon-Induced Reaction for a Strongly Chemisorbed Molecule |
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Authors: | Dr. Emiko Kazuma Minhui Lee Prof. Jaehoon Jung Prof. Michael Trenary Dr. Yousoo Kim |
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Affiliation: | 1. Surface and Interface Science Laboratory, RIKEN, Wako, Saitama, 351-0198 Japan;2. Department of Chemistry, University of Ulsan, Nam-gu, Ulsan, 44776 Republic of Korea;3. Department of Chemistry, University of Illinois at Chicago, 845 W Taylor Street, Chicago, IL, 60607 USA |
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Abstract: | Chemical reactions induced by plasmons achieve effective solar-to-chemical energy conversion. However, the mechanism of these reactions, which generate a strong electric field, hot carriers, and heat through the excitation and decay processes, is still controversial. In addition, it is not fully understood which factor governs the mechanism. To obtain mechanistic knowledge, we investigated the plasmon-induced dissociation of a single-molecule strongly chemisorbed on a metal surface, two O2 species chemisorbed on Ag(110) with different orientations and electronic structures, using a scanning tunneling microscope (STM) combined with light irradiation at 5 K. A combination of quantitative analysis by the STM and density functional theory calculations revealed that the hot carriers are transferred to the antibonding (π*) orbitals of O2 strongly hybridized with the metal states and that the dominant pathway and reaction yield are determined by the electronic structures formed by the molecule–metal chemical interaction. |
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Keywords: | oxygen plasmon reaction mechanisms scanning tunneling microscope single molecule |
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