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Article

Shape Evolution of Cu₂O Nanostructures via Kinetic and Thermodynamic Controlled Growth

Choon Hwee Bernard Ng and Wai Yip Fan*

Department of Chemistry, National University of Singapore, 3 Science Drive 3, Singapore 117543

J. Phys. Chem. B, 2006, 110 (42), pp 20801–20807

DOI: 10.1021/jp061835k

Publication Date (Web): September 23, 2006

To whom correspondence should be addressed. Fax: 6567791691. E-mail: chmfanwy@nus.edu.sg.

Abstract

We report the shape evolution process of Cu₂O nanocrystals upon slow oxidation of Cu under ambient conditions, yielding novel hexagonal and triangular platelike morphologies. The shape of the obtained nanocrystals evolves from hexagonal to triangular to octahedral; the growth patterns are governed by kinetically and thermodynamically controlled growth. Preferential adsorption of I^- on {111} planes of Cu₂O nanoparticles induced the selective crystal growth of metastable platelike structures with {111} faces as the basal planes. On aging, the growth process appeared to shift into the thermodynamic regime and the thermodynamically stable octahedral shape is obtained. The possible growth mechanisms were investigated by varying the synthetic conditions. The band gap of Cu₂O nanooctahedrons was determined by the classical Tauc approach to be 2.24 eV, which is blue shifted with respect to the bulk Cu₂O value (2.17 eV). Results suggest that the slow oxidation process and use of crystallographic selective surfactants are essential for the appearance of anisotropic metastable shapes. In general, surface energy control by surfactant molecules might provide a convenient channel for tailoring nanocrystal shapes of metal oxides.

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History

Published In Issue October 26, 2006
Received March 24, 2006
Revised August 21, 2006

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Article

Shape Evolution of Cu₂O Nanostructures via Kinetic and Thermodynamic Controlled Growth