Abstract
The very early nucleation stage of a transition metal dichalcogenide (TMD) was directly observed with in-situ monitoring of chemical vapor deposition and automated image analysis. Unique nucleation dynamics, such as very large critical nuclei and slow to rapid growth transitions, were observed during the vapor–liquid–solid (VLS) growth of monolayer tungsten disulfide (WS2). This can be explained by two-step nucleation, also known as non-classical nucleation, in which metastable clusters are formed through the aggregation of droplets. Subsequently, nucleation of solid WS2 takes place inside the metastable cluster. Furthermore, the detailed nucleation dynamics was systematically investigated from a thermodynamic point of view, revealing that the incubation time of metastable cluster formation follows the traditional time–temperature transformation diagram. Quantitative phase field simulation, combined with Bayesian inference, was conducted to extract quantitative information on the growth dynamics and crystal anisotropy from in-situ images. A clear transition in growth dynamics and crystal anisotropy between the slow and rapid growth phases was quantitatively verified. This observation supports the existence of two-step nucleation in the VLS growth of WS2. Such detailed understanding of TMD nucleation dynamics can be useful for achieving perfect structure control of TMDs.
Highlights
The very early nucleation stage of a transition metal dichalcogenide (TMD) was directly observed with in-situ monitoring of chemical vapor deposition and automated image analysis
The nucleation dynamics of TMD were systematically investigated from a thermodynamic point of view
A combination of quantitative phase field simulations (Q-PFS) and in-situ imaging using data assimilation techniques was carried out. This enabled us to quantitatively discuss the time evolution of growth dynamics and crystal anisotropy, and our observations support the occurrence of non-classical nucleation. These findings can contribute to improving the quality of TMD crystals, which would be useful for future industrial applications
Summary
The very early nucleation stage of a transition metal dichalcogenide (TMD) was directly observed with in-situ monitoring of chemical vapor deposition and automated image analysis. We realized the direct visualization of the phase transition from liquid precursors to solid TMD through in-situ monitoring CVD and automated image analysis. This enabled us to quantitatively discuss the time evolution of growth dynamics and crystal anisotropy, and our observations support the occurrence of non-classical nucleation.
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