. "Trachta, Michal" . . . . . "000342843200029" . "RIV/61388963:_____/14:00439691!RIV15-GA0-61388963" . . "RIV/61388963:_____/14:00439691" . "periodic structure; carbon nanostructures; graphene; quantum mechanics; physisorbed"@en . . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "[0440900CB196]" . . "Localised quantum states of atomic and molecular particles physisorbed on carbon-based nanoparticles"@en . "Localised quantum states of atomic and molecular particles physisorbed on carbon-based nanoparticles"@en . . . "Localised quantum states of atomic and molecular particles physisorbed on carbon-based nanoparticles" . . . "Kapr\u00E1lov\u00E1-\u017D\u010F\u00E1nsk\u00E1, Petra Ruth" . . "10"^^ . "The vibrational states of atomic and molecular particles adsorbed on long linear nanographenes are described using reliable theoretical potentials and appropriate vibrational (lateral) Hamiltonians. Although they rigorously obey the Bloch theorem only for infinite nanographenes, the energy patterns of the probed states closely resemble the usual Bloch bands and gaps. In addition, for any finite nanographene, these patterns are enriched by the presence of \u201Csolitary energy levels and the \u201Cresonance structure of the bands. While typical band states are profoundly delocalised due to a fast tunneling of the adsorbed particle, the \u201Csolitary and \u201Cresonance states exhibit strong localisation, similar to the behaviour of the states of the Wannier-Stark ladders in optical and semiconductor superlattices."@en . "The vibrational states of atomic and molecular particles adsorbed on long linear nanographenes are described using reliable theoretical potentials and appropriate vibrational (lateral) Hamiltonians. Although they rigorously obey the Bloch theorem only for infinite nanographenes, the energy patterns of the probed states closely resemble the usual Bloch bands and gaps. In addition, for any finite nanographene, these patterns are enriched by the presence of \u201Csolitary energy levels and the \u201Cresonance structure of the bands. While typical band states are profoundly delocalised due to a fast tunneling of the adsorbed particle, the \u201Csolitary and \u201Cresonance states exhibit strong localisation, similar to the behaviour of the states of the Wannier-Stark ladders in optical and semiconductor superlattices." . "I, P(GAP205/11/0571), P(GAP208/10/0725), P(GAP208/11/0436)" . . "11" . . . "26472" . "3"^^ . "\u0160pirko, Vladim\u00EDr" . "0021-9606" . "4"^^ . . "Localised quantum states of atomic and molecular particles physisorbed on carbon-based nanoparticles" . "10.1063/1.4894412" . . . "Journal of Chemical Physics" . . "Bludsk\u00FD, Ota" . "141" . .