3D Lattices of Core/Shell Ge/Mn Quantum Dots in an Alumina Matrix: Structure, Fabrication, and Photo-Electrical Properties

Periša, Ivana; Svalina, Gabrijela; Ivanda, Mile; Tkalčević, Marija; Bernstorff, Sigrid; Mičetić, Maja (2024) 3D Lattices of Core/Shell Ge/Mn Quantum Dots in an Alumina Matrix: Structure, Fabrication, and Photo-Electrical Properties. Nanomaterials, 14 (23). ISSN 2079-4991

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Abstract

Materials consisting of quantum dots with a semiconductor-core, metal–shell structure often have exciting and tunable photo-electrical properties in a large range of values, and they are adjustable by core and shell structure parameters. Here, we investigated the influence of Mn-shell addition to Ge quantum dots formed in an alumina matrix by magnetron sputtering deposition. We show a well-achieved formation of the 3D regular lattices of Ge-core, Mn-rich shell quantum dots, which were achieved by self-assembled growth mode. Intermixing of Ge and Mn in the shell was observed. The optical, electrical, and photo-conversion properties were strongly affected by the addition of the Mn shell and its thickness. The shell induced changes in the optical gap of the materials and caused an increase in the material’s conductivity. The most significant changes occurred in the photo-electrical properties of the materials. Their quantum efficiency, i.e., the efficiency of the conversion of photon energy to the electrical current, was very strongly enhanced by the shell addition, though it depended on its thickness. The best results were obtained for the thinnest shell added to the Ge core, for which the maximal quantum efficiency was significantly enhanced by more than 100%. The effect was, evidently, the consequence of multiple exciton generation, which was enhanced by the shell addition. The obtained materials offer great potential for various applications in photo-sensitive devices.

Item Type:	Article
Uncontrolled Keywords:	quantum efficiency; magnetron sputtering; germanium; core/shell quantum dots; multiple exciton generation; manganese
Subjects:	NATURAL SCIENCES > Physics
Divisions:	Division of Materials Physics
Projects:	Project title Project leader Project code Project type Foto-osjetljive kvantne strukture za primjenu u senzorima, fotoćelijama i cijepanju vode Maja Mičetić IP-2022-10-3765 Znanstveno-istraživački projekt
Depositing User:	Lorena Palameta
Date Deposited:	28 Nov 2024 13:14
URI:	http://fulir.irb.hr/id/eprint/9335
DOI:	10.3390/nano14231906

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