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在氧化铝玻璃基质中制备Ge/Si核壳量子点和Si/Ge层的三维量子点晶格。

Production of three-dimensional quantum dot lattice of Ge/Si core-shell quantum dots and Si/Ge layers in an alumina glass matrix.

作者信息

Buljan M, Radić N, Sancho-Paramon J, Janicki V, Grenzer J, Bogdanović-Radović I, Siketić Z, Ivanda M, Utrobičić A, Hübner R, Weidauer R, Valeš V, Endres J, Car T, Jerčinović M, Roško J, Bernstorff S, Holy V

机构信息

Rudjer Bošković Institute, Bijenička cesta 54,10000 Zagreb, Croatia.

出版信息

Nanotechnology. 2015 Feb 13;26(6):065602. doi: 10.1088/0957-4484/26/6/065602. Epub 2015 Jan 21.

Abstract

We report on the formation of Ge/Si quantum dots with core/shell structure that are arranged in a three-dimensional body centered tetragonal quantum dot lattice in an amorphous alumina matrix. The material is prepared by magnetron sputtering deposition of Al2O3/Ge/Si multilayer. The inversion of Ge and Si in the deposition sequence results in the formation of thin Si/Ge layers instead of the dots. Both materials show an atomically sharp interface between the Ge and Si parts of the dots and layers. They have an amorphous internal structure that can be crystallized by an annealing treatment. The light absorption properties of these complex materials are significantly different compared to films that form quantum dot lattices of the pure Ge, Si or a solid solution of GeSi. They show a strong narrow absorption peak that characterizes a type II confinement in accordance with theoretical predictions. The prepared materials are promising for application in quantum dot solar cells.

摘要

我们报道了在非晶氧化铝基质中形成的具有核壳结构的Ge/Si量子点,这些量子点排列在三维体心四方量子点晶格中。该材料通过磁控溅射沉积Al2O3/Ge/Si多层膜制备而成。沉积顺序中Ge和Si的反转导致形成薄的Si/Ge层而非量子点。两种材料在量子点和层的Ge与Si部分之间均呈现原子级尖锐界面。它们具有非晶内部结构,可通过退火处理使其结晶。与形成纯Ge、Si或GeSi固溶体量子点晶格的薄膜相比,这些复杂材料的光吸收特性显著不同。它们呈现出一个强烈的窄吸收峰,这与理论预测一致,表征了II型限制。所制备的材料在量子点太阳能电池应用方面具有前景。

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