Litcius/Paper detail

Toward Controlled Synthesis of 2D Crystals by CVD: Learning from the Real-Time Crystal Morphology Evolutions

Jing Zhang, Tianshu Zhai, Faizal Arifurrahman, Yuguo Wang, Andrew Hitt, Zelai He, Qing Ai, Yifeng Liu, Chen-yang Lin, Yifan Zhu, Ming Tang, Jun Lou

2024Nano Letters20 citationsDOI

Abstract

The rich morphology of 2D materials grown through chemical vapor deposition (CVD), is a distinctive feature. However, understanding the complex growth of 2D crystals under practical CVD conditions remains a challenge due to various intertwined factors. Real-time monitoring is crucial to providing essential data and enabling the use of advanced tools like machine learning for unraveling these complexities. In this study, we present a custom-built miniaturized CVD system capable of observing and recording 2D MoS 2 crystal growth in real time. Image processing converts the real-time footage into digital data, and machine learning algorithms (ML) unveil the significant factors influencing growth. The machine learning model successfully predicts CVD growth parameters for synthesizing ultralarge monolayer MoS 2 crystals. It also demonstrates the potential to reverse engineer CVD growth parameters by analyzing the as-grown 2D crystal morphology. This interdisciplinary approach can be integrated to enhance our understanding of controlled 2D crystal synthesis through CVD.

Topics & Concepts

Chemical vapor depositionNanotechnologyMonolayerCrystal (programming language)Crystal growthMaterials scienceMorphology (biology)Feature (linguistics)Computer scienceArtificial intelligenceBiological systemChemistryCrystallographyGeologyBiologyPhilosophyPaleontologyLinguisticsProgramming language2D Materials and ApplicationsMXene and MAX Phase MaterialsAdvanced Photocatalysis Techniques
Toward Controlled Synthesis of 2D Crystals by CVD: Learning from the Real-Time Crystal Morphology Evolutions | Litcius