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Heteroepitaxial chemistry of zinc chalcogenides on InP nanocrystals for defect-free interfaces with atomic uniformity
Writer 고홍숙
Date 2023-07-21 13:37:46.0
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Heteroepitaxy on colloidal semiconductor nanocrystals is an essential strategy for manipulating their optoelectronic functionalities. However, their practical synthesis typically leads to scattered and unexpected outcomes due to the intervention of multiple reaction pathways associated with complicated side products of reactants. 


 Here, the heteroepitaxy mechanism of zinc chalcogenide initiated on indium phosphide (InP) colloidal nanocrystals is elucidated using the precursors, zinc carboxylate and trialkylphosphine selenide. The high magnetic receptivity of 77 Se and the characteristic longitudinal optical phonon mode of ZnSe allowed for monitoring the sequence of epilayer formation at the molecular level. The investigation revealed the sterically hindered acyloxytrialkylphosphonium and diacyloxytrialkylphosphorane to be main intermediates in the surface reaction, which retards the metal ion adsorption by a large steric hindrance. The transformation of adsorbates to the crystalline epilayer was disturbed by surface oxides. Raman scattering disclosed the pathway of secondary surface oxidation triggered by carboxylate ligands migrated from zinc carboxylate. The surface-initiated heteroepitaxy protocol is proposed to fabricate core/shell heterostructured nanocrystals with atomic-scale uniformity of epilayers. Despite the large lattice mismatch of ZnS to InP, we realised a uniform and interface defect-free ZnS epilayer (~0.3 nm thickness) on InP nanocrystals, as evidenced by a high photoluminescence quantum yield of 97.3%.


ZnS heteroepitaxy on InP NCs achieving improved uniformity in a single epilayer level (distributed under the terms of the Creative Commons CC BY license) 


[Reference] Yeongho Choi, Donghyo Hahm, Wan Ki Bae, Jaehoon Lim* “Heteroepitaxial chemistry of zinc chalcogenides on InP nanocrystals for defect-free interfaces with atomic uniformity”, Nature Communications, 14:43 (2023) (DOI: 10.1038/s41467-022-35731-2)

   

   

[Main Author] Yeongho Choi (Department of Energy Science (DOES), SKKU Institute of Energy Science and Technology (SIEST), Sungkyunkwan University (SKKU)), Jaehoon Lim (DOES, SIEST, SKKU) 

* Contact : Prof. Jaehoon Lim (j.lim@skku.edu)