Issue 31, 2022

Room-temperature formation of alloy ZnxCd13−xSe13 magic-size clusters via cation exchange in diamine solution

Abstract

Magic-size clusters (MSCs) are molecular materials with unique properties at the border between molecules and solids, providing important insights into the nanocrystal formation process. However, the synthesis of multicomponent alloy MSCs in a single-ensemble form remains challenging due to their tiny size and difficult doping control. Herein, for the first time, we successfully synthesized alloy ZnxCd13−xSe13 MSCs (x = 1–12) with a unique sharp absorption peak at 352 nm by cation exchange between Cd2+ ions and pre-synthesized (ZnSe)13 MSCs in a diamine solution at room temperature. The experimental results show that the use of diamines is crucial to the formation of stable ZnxCd13−xSe13 MSCs, which may be attributed to two amine groups that can coordinate to the surface of MSCs simultaneously. Limited by the robust interaction between diamine ligands and MSCs, the partial cation exchange results in the formation of alloy ZnxCd13−xSe13 MSCs. In contrast, complete cation exchange occurs in a monoamine solution, giving (CdSe)34 MSCs. Besides, a lower reaction temperature and a higher concentration of diamine favor the formation of ZnxCd13−xSe13 MSCs. Our study provides an important basis for further understanding of the transformation of MSCs and a new approach to the controllable synthesis of alloyed MSCs.

Graphical abstract: Room-temperature formation of alloy ZnxCd13−xSe13 magic-size clusters via cation exchange in diamine solution

Supplementary files

Article information

Article type
Paper
Submitted
02 May 2022
Accepted
07 Jul 2022
First published
07 Jul 2022

Nanoscale, 2022,14, 11210-11217

Room-temperature formation of alloy ZnxCd13−xSe13 magic-size clusters via cation exchange in diamine solution

W. Zhu, Z. Lin, X. Zhang, W. Wang and Y. Li, Nanoscale, 2022, 14, 11210 DOI: 10.1039/D2NR02399G

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