Issue 6, 2019

Highly fluorescent, color tunable and magnetic quaternary Ag–In–Mn–Zn–S quantum dots

Abstract

Mn-Doped quantum dots (QDs) are of high interest for numerous applications like solar cells, optoelectronics, optosensing, or bioimaging. Here, we report the preparation of quaternary (AgInS2)x(MnS)y(ZnS)1−xy QDs, thereafter noted Mn : AIZS via a thermally induced decomposition of Ag, In, Zn and Mn precursors in the presence of oleylamine and dodecanethiol. The Mn : AIZS QDs have an average diameter of 3.5 nm and their XRD patterns can be indexed with the orthorhombic phase of AgInS2. The incorporation of Mn2+ ions in the AIZS crystal lattice results in a red-shift of the photoluminescence (PL) emission maximum depending on the Mn2+ content. The PL quantum yields decrease upon loading with Mn2+ but remained high (53–31%) until 50% theoretical loading in Mn2+. Steady state, PL excitation and time-resolved PL measurements suggest that Mn2+-dependent trap states are involved in the PL emission. Mn : AIZS QDs exhibit also magnetic properties. In addition, Mn : AIZS QDs can easily be transferred to the aqueous phase using the PMAO amphiphilic polymer without alteration of their optical properties (PL quantum yield up to 51%), revealing their high potential for biological applications.

Graphical abstract: Highly fluorescent, color tunable and magnetic quaternary Ag–In–Mn–Zn–S quantum dots

Supplementary files

Article information

Article type
Research Article
Submitted
30 Jan 2019
Accepted
19 Apr 2019
First published
22 Apr 2019

Inorg. Chem. Front., 2019,6, 1422-1431

Highly fluorescent, color tunable and magnetic quaternary Ag–In–Mn–Zn–S quantum dots

P. Galiyeva, H. Alem, H. Rinnert, L. Balan, S. Blanchard, G. Medjahdi, B. Uralbekov and R. Schneider, Inorg. Chem. Front., 2019, 6, 1422 DOI: 10.1039/C9QI00131J

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