Growth of giant two-dimensional crystal of protein molecules from a three-phase contact line

Yasuhiro Ikezoe; Yoshikazu Kumashiro; Kaoru Tamada; Takuro Matsui; Ichiro Yamashita; Kiyotaka Shiba; Masahiko Hara

doi:10.1021/la802104f

Growth of giant two-dimensional crystal of protein molecules from a three-phase contact line

Yasuhiro Ikezoe, Yoshikazu Kumashiro, Kaoru Tamada, Takuro Matsui, Ichiro Yamashita, Kiyotaka Shiba, Masahiko Hara

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

A novel method to fabricate a two-dimensional (2D) crystal of protein molecules has been developed. The method enables us to control both the position of nucleation and the direction of the crystal growth. The crystal obtained using a protein molecule, ferritin, was found to be composed of a number of densely packed single crystal domains with an unprecedentedly large size of approximately 100 μm₂. This method also reveals characteristic behavior of the spatiotemporal evolution of the crystal; for example, "fusion" of the crystal domains, which is never observed in an ordinary crystal composed of atoms or ions, was demonstrated. Our approach could have potential in fabricating extraordinarily large and highly ordered nanoparticle arrays of organic or inorganic materials.

Original language	English
Pages (from-to)	12836-12841
Number of pages	6
Journal	Langmuir
Volume	24
Issue number	22
DOIs	https://doi.org/10.1021/la802104f
Publication status	Published - Nov 18 2008
Externally published	Yes

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Surfaces and Interfaces
Spectroscopy
Electrochemistry

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10.1021/la802104f

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AU - Ikezoe, Yasuhiro

AU - Kumashiro, Yoshikazu

AU - Tamada, Kaoru

AU - Matsui, Takuro

AU - Yamashita, Ichiro

AU - Shiba, Kiyotaka

AU - Hara, Masahiko

PY - 2008/11/18

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AB - A novel method to fabricate a two-dimensional (2D) crystal of protein molecules has been developed. The method enables us to control both the position of nucleation and the direction of the crystal growth. The crystal obtained using a protein molecule, ferritin, was found to be composed of a number of densely packed single crystal domains with an unprecedentedly large size of approximately 100 μm2. This method also reveals characteristic behavior of the spatiotemporal evolution of the crystal; for example, "fusion" of the crystal domains, which is never observed in an ordinary crystal composed of atoms or ions, was demonstrated. Our approach could have potential in fabricating extraordinarily large and highly ordered nanoparticle arrays of organic or inorganic materials.

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Growth of giant two-dimensional crystal of protein molecules from a three-phase contact line

Abstract

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