Journal
NANO RESEARCH
Volume 15, Issue 9, Pages 8493-8501Publisher
TSINGHUA UNIV PRESS
DOI: 10.1007/s12274-022-4449-5
Keywords
nucleation; crystallization; metal-2D semiconductor heterostructure; interface interaction
Categories
Funding
- National Key Research and Development Program of China [2018YFA0703700]
- National Natural Science Foundation of China [12034002, 51971025, 11974041, 51901012, 52071022]
- Natural Science Foundation of Beijing, China [2212034]
- Fundamental Research Funds for the Central Universities [FRF-TP-18-075A1]
- USTB MatCom of Beijing Advanced Innovation Center for Materials Genome Engineering
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The heterostructure of transition metal nanocrystal on two-dimensional materials exhibits unique properties through interfacial interactions. However, understanding and control of the interfacial structures remain challenging. In this study, the regulation of interface on MoS2 supported Pt nanocrystals was explored. It was found that the strain within the Pt nanocrystals is sensitive to the atomic configuration of the supporting MoS2, which influences the size of the Pt nanocrystals.
The heterostructure of transition metal nanocrystal on two-dimensional (2D) materials exhibits unique physical and chemical properties through various interfacial interactions. It has been established that the atomic structure and strain in the vicinity of the interface determine the band structure and phonon modes of the nanocrystal, regulating the optical and electrical properties of such heterostructures. Hence, metal-support interfacial engineering is a demonstrated approach to acquiring desired properties of the nanocrystals. However, a fundamental understanding of the interfacial structures remains elusive and precise control of the interactions has yet achieved. Herein, we explore the regulation of interface on MoS2 supported Pt nanocrystals which were prepared by reducing ultrasonic dispersed potassium chloroplatinate. The Pt-MoS2 heterostructure interface was systematically studied by aberration corrected transmission electron microscopy. Three types of Pt-MoS2 interfaces with distinct atomic configurations were identified. The strain within the Pt nanocrystals is sensitive to the atomic configuration of the supporting MoS2, which regulates the size of the Pt nanocrystals. These results provide insights on tuning of nanocrystal strain, paving the way for precise control of 2D semiconductor heterostructures.
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