Ordered arrays of highly oriented single-crystal semiconductor nanoparticles on silicon substrates

Tipo de material: Texto

TextoSeries ; Nanotechnology, 16, p.1892-1898, 2005Trabajos contenidos:

Lei, Y
Chim, K
Weissmuller, J
Wilde, G
Sun, H.P
Pan, X.Q

Recursos en línea:

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Resumen: One of the unsolved problems in the application of nanoparticle arrays is how to precisely control their macroscopic properties based on the microscopic properties of their basic component-the individual nanoparticle. Thus it is highly desirable to fabricate arrays of perfect iso-nanoparticles, which are defined as particles of the same size, structure, and ambient condition. Here we show that ordered semiconductor (indium oxide)single-crystal nanoparticle arrays can be obtained by oxidation of arrayed metal (indium)nanoparticles. The arrayed semiconductor nanoparticles have similar size, shape, crystalline structure and orientation, and ambient condition. Our work is a step closer towards the goal of achieving iso-nanoparticle arrays.

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One of the unsolved problems in the application of nanoparticle arrays is how to precisely control their macroscopic properties based on the microscopic properties of their basic component-the individual nanoparticle. Thus it is highly desirable to fabricate arrays of perfect iso-nanoparticles, which are defined as particles of the same size, structure, and ambient condition. Here we show that ordered semiconductor (indium oxide)single-crystal nanoparticle arrays can be obtained by oxidation of arrayed metal (indium)nanoparticles. The arrayed semiconductor nanoparticles have similar size, shape, crystalline structure and orientation, and ambient condition. Our work is a step closer towards the goal of achieving iso-nanoparticle arrays.

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