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Ge/Si core/shell quantum dots in alumina: tuning the optical absorption by the core and shell size

Nekić, Nikolina; Sancho-Parramon, Jordi; Bogdanović Radović, Ivančica; Grenzer, Joerg; Huebner, Rene; Bernstorff, Sigrid; Ivanda, Mile; Buljan, Maja (2017) Ge/Si core/shell quantum dots in alumina: tuning the optical absorption by the core and shell size. Nanophotonics . ISSN 2192-8614

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Abstract

Ge/Si core/shell quantum dots (QDs) recently received extensive attention due to their specific properties induced by the confinement effects of the core and shell structure. They have a type II confinement resulting in spatially separated charge carriers, the electronic structure strongly dependent on the core and shell size. Herein, the experimental realization of Ge/Si core/shell QDs with strongly tunable optical properties is demonstrated. QDs embedded in an amorphous alumina glass matrix are produced by simple magnetron sputtering deposition. In addition, they are regularly arranged within the matrix due to their self-assembled growth regime. QDs with different Ge core and Si shell sizes are made. These core/shell structures have a significantly stronger absorption compared to pure Ge QDs and a highly tunable absorption peak dependent on the size of the core and shell. The optical properties are in agreement with recent theoretical predictions showing the dramatic influence of the shell size on optical gap, resulting in 0.7 eV blue shift for only 0.4 nm decrease at the shell thickness. Therefore, these materials are very promising for light-harvesting applications.

Item Type: Article
Uncontrolled Keywords:
Subjects: NATURAL SCIENCES > Physics > Condensed Matter Physics
Divisions: Division of Materials Physics
Projects:
Project titleProject leaderProject codeProject type
Nano-mreže kvantnih točaka u staklima: Od samouređenja do pretvorbe energije i pohrane vodika-NanoDeSignMaja BuljanUIP-11-2013-2334HRZZ
Depositing User: Nikolina Nekić
Date Deposited: 13 Mar 2017 12:04
URI: http://fulir.irb.hr/id/eprint/3422
DOI: https://doi.org/10.1515/nanoph-2016-0133

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