Rotational transitions in a C60 monolayer on the WO 2/W(110) surface

Sergey I. Bozhko; Sergey A. Krasnikov; Olaf Lübben; Barry E. Murphy; Kevin Radican; Valery N. Semenov; Han Chun Wu; Brendanf Bulfin; Igor V. Shvets

doi:10.1103/PhysRevB.84.195412

Rotational transitions in a C₆₀ monolayer on the WO ₂/W(110) surface

Sergey I. Bozhko^*, Sergey A. Krasnikov, Olaf Lübben, Barry E. Murphy, Kevin Radican, Valery N. Semenov, Han Chun Wu, Brendanf Bulfin, Igor V. Shvets

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

16 引用（Scopus）

摘要

Variable-temperature scanning tunneling microscopy (STM) is shown to be an effective technique to study two-dimensional phase transitions. Observations show that a monolayer of C₆₀ deposited on an ultrathin WO₂ layer grown on the W(110) surface undergoes a structural phase transition at 259 K, similar in temperature to that of bulk C₆₀. In turn, a kinetic transition has been observed at 220 K, which is significantly higher than that of the bulk C₆₀ crystal (90 K). This difference is attributed to interactions between the molecular overlayer and the substrate, as well as correlation effects within the C₆₀ film. Different types of molecular nanomotion, such as rotation, spinning, and switching between different orientations, have been observed. STM measurements are supported by density functional theory calculations, which provide confirmation of different orientations of C₆₀ on the WO₂ thin film.

源语言	英语
文章编号	195412
期刊	Physical Review B - Condensed Matter and Materials Physics
卷	84
期	19
DOI	https://doi.org/10.1103/PhysRevB.84.195412
出版状态	已出版 - 3 11月 2011
已对外发布	是

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abstract = "Variable-temperature scanning tunneling microscopy (STM) is shown to be an effective technique to study two-dimensional phase transitions. Observations show that a monolayer of C60 deposited on an ultrathin WO2 layer grown on the W(110) surface undergoes a structural phase transition at 259 K, similar in temperature to that of bulk C60. In turn, a kinetic transition has been observed at 220 K, which is significantly higher than that of the bulk C60 crystal (90 K). This difference is attributed to interactions between the molecular overlayer and the substrate, as well as correlation effects within the C60 film. Different types of molecular nanomotion, such as rotation, spinning, and switching between different orientations, have been observed. STM measurements are supported by density functional theory calculations, which provide confirmation of different orientations of C60 on the WO2 thin film.",

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AU - Bozhko, Sergey I.

AU - Krasnikov, Sergey A.

AU - Lübben, Olaf

AU - Murphy, Barry E.

AU - Radican, Kevin

AU - Semenov, Valery N.

AU - Wu, Han Chun

AU - Bulfin, Brendanf

AU - Shvets, Igor V.

PY - 2011/11/3

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N2 - Variable-temperature scanning tunneling microscopy (STM) is shown to be an effective technique to study two-dimensional phase transitions. Observations show that a monolayer of C60 deposited on an ultrathin WO2 layer grown on the W(110) surface undergoes a structural phase transition at 259 K, similar in temperature to that of bulk C60. In turn, a kinetic transition has been observed at 220 K, which is significantly higher than that of the bulk C60 crystal (90 K). This difference is attributed to interactions between the molecular overlayer and the substrate, as well as correlation effects within the C60 film. Different types of molecular nanomotion, such as rotation, spinning, and switching between different orientations, have been observed. STM measurements are supported by density functional theory calculations, which provide confirmation of different orientations of C60 on the WO2 thin film.

AB - Variable-temperature scanning tunneling microscopy (STM) is shown to be an effective technique to study two-dimensional phase transitions. Observations show that a monolayer of C60 deposited on an ultrathin WO2 layer grown on the W(110) surface undergoes a structural phase transition at 259 K, similar in temperature to that of bulk C60. In turn, a kinetic transition has been observed at 220 K, which is significantly higher than that of the bulk C60 crystal (90 K). This difference is attributed to interactions between the molecular overlayer and the substrate, as well as correlation effects within the C60 film. Different types of molecular nanomotion, such as rotation, spinning, and switching between different orientations, have been observed. STM measurements are supported by density functional theory calculations, which provide confirmation of different orientations of C60 on the WO2 thin film.

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Rotational transitions in a C60 monolayer on the WO 2/W(110) surface

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Rotational transitions in a C₆₀ monolayer on the WO ₂/W(110) surface