Stress release drives growth transition of quaterrylene thin films on Sio2 surfaces

Ryoma Hayakawa; XueNa Zhang; Helmut Dosch; Nobuya Hiroshiba; Toyohiro Chikyow; Yutaka Wakayama

doi:10.1021/jp809556p

Stress release drives growth transition of quaterrylene thin films on Sio2 surfaces

Ryoma Hayakawa, XueNa Zhang, Helmut Dosch, Nobuya Hiroshiba, Toyohiro Chikyow, Yutaka Wakayama^*

^*この研究の対応する著者

研究成果: Article › 査読

11 被引用数 (Scopus)

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The growth process of quaterrylene thin films was examined by atomic force microscopy and in-plane and out-of-plane X-ray diffraction (XRD). Quaterrylene thin films on the SiO₂ surface exhibit the Stranski-Krastanov (SK) growth mode; the films initially formed two-dimensional (2D) layers (<4 monolayers (ML)) followed by three-dimensional (3D) island growth. Grazing incidence X-ray diffraction (GIXD) measurement revealed that the first few layers were subjected to compressive stress along the b axis of the unit cell, resulting in expansion of the a- and c-lattice constants. This result revealed that compressive stress generated in the 2D layers drives the change of the growth mode to 3D. An understanding of the transition mechanism in early growth has important implications for the improvement of carrier transport in organic field-effect transistors.

本文言語	English
ページ（範囲）	2197-2199
ページ数	3
ジャーナル	Journal of Physical Chemistry C
巻	113
号	6
DOI	https://doi.org/10.1021/jp809556p
出版ステータス	Published - 2009 2月 12
外部発表	はい

ASJC Scopus subject areas

物理化学および理論化学
電子材料、光学材料、および磁性材料
表面、皮膜および薄膜
エネルギー（全般）

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title = "Stress release drives growth transition of quaterrylene thin films on Sio2 surfaces",

abstract = "The growth process of quaterrylene thin films was examined by atomic force microscopy and in-plane and out-of-plane X-ray diffraction (XRD). Quaterrylene thin films on the SiO2 surface exhibit the Stranski-Krastanov (SK) growth mode; the films initially formed two-dimensional (2D) layers (<4 monolayers (ML)) followed by three-dimensional (3D) island growth. Grazing incidence X-ray diffraction (GIXD) measurement revealed that the first few layers were subjected to compressive stress along the b axis of the unit cell, resulting in expansion of the a- and c-lattice constants. This result revealed that compressive stress generated in the 2D layers drives the change of the growth mode to 3D. An understanding of the transition mechanism in early growth has important implications for the improvement of carrier transport in organic field-effect transistors.",

author = "Ryoma Hayakawa and XueNa Zhang and Helmut Dosch and Nobuya Hiroshiba and Toyohiro Chikyow and Yutaka Wakayama",

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T1 - Stress release drives growth transition of quaterrylene thin films on Sio2 surfaces

AU - Hayakawa, Ryoma

AU - Zhang, XueNa

AU - Dosch, Helmut

AU - Hiroshiba, Nobuya

AU - Chikyow, Toyohiro

AU - Wakayama, Yutaka

PY - 2009/2/12

Y1 - 2009/2/12

N2 - The growth process of quaterrylene thin films was examined by atomic force microscopy and in-plane and out-of-plane X-ray diffraction (XRD). Quaterrylene thin films on the SiO2 surface exhibit the Stranski-Krastanov (SK) growth mode; the films initially formed two-dimensional (2D) layers (<4 monolayers (ML)) followed by three-dimensional (3D) island growth. Grazing incidence X-ray diffraction (GIXD) measurement revealed that the first few layers were subjected to compressive stress along the b axis of the unit cell, resulting in expansion of the a- and c-lattice constants. This result revealed that compressive stress generated in the 2D layers drives the change of the growth mode to 3D. An understanding of the transition mechanism in early growth has important implications for the improvement of carrier transport in organic field-effect transistors.

AB - The growth process of quaterrylene thin films was examined by atomic force microscopy and in-plane and out-of-plane X-ray diffraction (XRD). Quaterrylene thin films on the SiO2 surface exhibit the Stranski-Krastanov (SK) growth mode; the films initially formed two-dimensional (2D) layers (<4 monolayers (ML)) followed by three-dimensional (3D) island growth. Grazing incidence X-ray diffraction (GIXD) measurement revealed that the first few layers were subjected to compressive stress along the b axis of the unit cell, resulting in expansion of the a- and c-lattice constants. This result revealed that compressive stress generated in the 2D layers drives the change of the growth mode to 3D. An understanding of the transition mechanism in early growth has important implications for the improvement of carrier transport in organic field-effect transistors.

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Stress release drives growth transition of quaterrylene thin films on Sio2 surfaces

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