The height of the inter-grain energy barrier plays a key role in the determination of the conductive properties of semiconducting nanograins. In the limit of very-fine nanograins (≈ 1 nm), quantum effects start being relevant in the determination of physical properties. We approached the problem in a semi-classical method such as the Thomas-Fermi equation.
A Semi-Classical Approach for Determination of the Inter-Granular Energy-Barrier Height in Very-Fine Nanograins
GUIDI V.;C. MALAGU;G. MARTINELLI;S. COZZOLINO;
2005
Abstract
The height of the inter-grain energy barrier plays a key role in the determination of the conductive properties of semiconducting nanograins. In the limit of very-fine nanograins (≈ 1 nm), quantum effects start being relevant in the determination of physical properties. We approached the problem in a semi-classical method such as the Thomas-Fermi equation.File in questo prodotto:
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