Patil, Nitee Kumari, Sampathkumar Jeevanandham, In Su Lee. Amit Kumar, Soumen Dutta, Seonock Kim, Taewan Kwon, Santosh S.
The Journal of Physical Chemistry C 2022, 126 Controllable Synthesis of Large-Scale Monolayer MoS2 Dendritic Flakes with Serrated Edges and Their Multimodal Microscopy and AFM Characterizations. Fei Chen, Qiuran Lv, Yuan Xia, Shuduan Mao, Yajie Li.Accounts of Materials Research 2022, Article ASAP. Controlled Growth of Two-Dimensional Heterostructures: In-Plane Epitaxy or Vertical Stack. Jieyuan Liang, Xiaoli Zhu, Mingxing Chen, Xidong Duan, Dong Li, Anlian Pan.Atomic Layer Deposition of Large-Area Polycrystalline Transition Metal Dichalcogenides from 100 ☌ through Control of Plasma Chemistry. Miika Mattinen, Farzan Gity, Emma Coleman, Joris F.Synthesis of a Selectively Nb-Doped WS2–MoS2 Lateral Heterostructure for a High-Detectivity PN Photodiode. Van Tu Vu, Thanh Luan Phan, Thi Thanh Huong Vu, Mi Hyang Park, Van Dam Do, Viet Quoc Bui, Kunnyun Kim, Young Hee Lee, Woo Jong Yu.Regioselective Friedel–Crafts Acylation Reaction Using Single Crystalline and Ultrathin Nanosheet Assembly of Scrutinyite-SnO2. Choudary, Thirumalaiswamy Raja, Pangkita Deka, Ramesh C. Sudakhina Saikia, Rasna Devi, Pranjal Gogoi, Lakshi Saikia, Boyapati M.This article is cited by 678 publications. Finally, we suggest solutions to these challenges and ideas concerning future developments in this emerging field. The applications of CVD-grown 2D materials and their heterostructures in electronics, optoelectronics, sensors, flexible devices, and electrocatalysis are also discussed. Meanwhile, strategies to design and grow various kinds of 2D material based heterostructures are thoroughly discussed. We provide insight into the growth mechanisms of single crystal 2D domains and the key technologies used to realize wafer-scale growth of continuous and homogeneous 2D films which are important for practical applications. In this review of the challenges in the CVD growth of 2D materials, we highlight recent advances in the controlled growth of single crystal 2D materials, with an emphasis on semiconducting transition metal dichalcogenides. Chemical vapor deposition (CVD) is a powerful method which may meet the above requirements, and has been extensively used to grow 2D materials and their heterostructures in recent years, despite several challenges remaining. To achieve these high expectations, methods for the scalable preparation of 2D materials and 2D heterostructures of high quality and low cost must be developed. Moreover, 2D material based heterostructures combining several individual 2D materials provide unique platforms to create an almost infinite number of materials and show exotic physical phenomena as well as new properties and applications. Two-dimensional (2D) materials have attracted increasing research interest because of the abundant choice of materials with diverse and tunable electronic, optical, and chemical properties.
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