Spatially Confined Chemistry:  Fabrication of Ge Quantum Dot Arrays

Spatially Confined Chemistry:  Fabrication of Ge Quantum Dot Arrays

We report a technique for investigating nucleation and growth confined to nanometer scale surfaces. Lithographic and etching processes were used to create arrays of 100 and 150 nm holes through a thin SiO2 layer onto Si(100). Ge dots were nucleated and grown to a few nanometers in diameter within th...

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Veröffentlicht in:Journal of physical chemistry (1952) 1996-02, Vol.100 (8), p.3144-3149
Hauptverfasser: Heath, J. R, Williams, R. S, Shiang, J. J, Wind, S. J, Chu, J, D'Emic, C, Chen, W, Stanis, C. L, Bucchignano, J. J
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Sprache:eng
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Zusammenfassung:We report a technique for investigating nucleation and growth confined to nanometer scale surfaces. Lithographic and etching processes were used to create arrays of 100 and 150 nm holes through a thin SiO2 layer onto Si(100). Ge dots were nucleated and grown to a few nanometers in diameter within the patterned wells. Transmission electron and atomic force microscopic analyses revealed the presence of 0−1 Ge quantum dots in each of the 100 nm wells and 2−4 dots in the 150 nm wells. For the latter case, size−distance correlations indicated the effective radius of the diffusion field around a growing Ge particle was much larger than for growth on an infinite surface.
ISSN:0022-3654
1541-5740
DOI:10.1021/jp951903v