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自2004年成功实现石墨烯的机械剥离制备以来, 二维材料凭借其独特的结构和物理化学性质, 在电子、光电和能源等领域引起了广泛的研究和发展. 在合成方法方面, 科研人员在传统的机械剥离、液相剥离、气相沉积、湿化学合成以及纳米材料相工程等基础上, 进一步推进了原子台阶方法, 用于制备高质量、大尺寸二维单晶材料(2DSCM). 本文详细介绍了近几年关于原子台阶调控2DSCM生长的代表性工作. 首先, 对研究背景进行了简要介绍; 然后, 讨论了2DSCM的主要合成方法, 并分析了外延制备非中心对称材料的困难及原因; 之后, 介绍了通过原子台阶辅助制备2DSCM的生长机制和最新进展, 分析了原子台阶调控2DSCM成核的理论基础及通用性, 并对未来实现大尺寸、方向可控的2DSCM的挑战和发展方向进行了预测; 最后, 系统展望了台阶方法制备大尺寸2DSCM在未来规模化芯片器件方向的潜在应用.Since the successful mechanical exfoliation of graphene in 2004, two-dimensional materials have aroused extensive research and fast developed in various fields such as electronics, optoelectronics and energy, owing to their unique structural and physicochemical properties. In terms of synthesis methods, researchers have made further advancements in the atomic step method, building upon traditional techniques such as mechanical exfoliation, liquid-phase exfoliation, vapor-phase deposition, wet chemical synthesis, and nanomaterial self-assembly. These efforts aim to achieve high-quality large-scale two-dimensional single crystal materials. In this article, the representative research on the growth of two-dimensional single crystal materials controlled by atomic steps in recent years is reviewed in detail. To begin with, the research background is briefly introduced, then the main synthesis methods of two-dimensional single crystal materials are discussed and the challenges and reasons for the difficulty in epitaxially preparing non-centrosymmetric materials are analyzed. Subsequently, the growth mechanisms and recent advances in the preparation of two-dimensional single crystal materials assisted by atomic steps are presented. The theoretical basis and universality of atomic step-controlled nucleation in two-dimensional single crystal material are analyzed. Furthermore, the challenges and future directions for achieving large-scale, directionally controllable two-dimensional single crystal materials are predicted. Finally, potential applications of the step method in the future scalable chip device fabrication are systematically discussed.
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Keywords:
- two-dimensional single crystal materials/
- atomic steps/
- non-centrosymmetry/
- epitaxial growth
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领域 应用方向 优势 挑战 电子 晶体管、传感器、存储设备、互连、柔性电子产品、透明导电薄膜 高载流子迁移率、可调带隙、优异的机械和化学稳定性 可扩展性、可重复性、接口工程、设备集成、环境稳定性 光电子 LEDs、太阳能电池、光电探测、光调制器、吸收器 高载流子迁移率、可调带隙、优异的光吸收和发射 可重复性、环境稳定性、界面能源、设备集成、成本 催化 水分解、CO2还原、析氢反应、氧化还原反应 高比表面积、可调电子和化学性能、催化活性 可扩展性、反应稳定性、优异的选择性、成本 储能 电池、超级电容器、燃料电池、电催化、储氢 高表面积、可调的电子和化学性能、优异的电化学性能 可扩展性、反应稳定性、选择性、成本、毒性 传感器 气体、生物、应变传感器 灵敏度高、选择性好、电子和化学性能可调、稳定性好 可扩展性、环境稳定性、选择性、设备集成 生物医学 药物输送、生物传感、组织工程、生物成像 生物相容性、高表面积、可调的电子和化学性质、稳定性 选择性、可扩展性、毒性、生物环境稳定性、监管批准 环境 水处理、空气净化、能量收集 高表面积、电子和化学性能可调、优异的光催化和电催化 可扩展性、环境稳定性、选择性、成本 
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Substrate TMDs Alignment/% Symmetry
breakingRef. a-Al2O3 WS2 99 √ [174] a-Al2O3 MoS2 86 √ [181] c-Al2O3 MoS2 99 √ [16] c-Al2O3 WS2 >90 √ [182] c-Al2O3 WSe2 92 √ [105] Au(533) WS2 >90 √ [183] Au(111) MoS2 99 √ [184] Au(111) MoS2 98 √ [169] β-Ga2O3 MoS2 >90 √ [172] c-Al2O3 MoS2 50 × [177] c-Al2O3 MoS2 50 × [178] c-Al2O3 MoS2 60 × [173] c-Al2O3 MoS2 50 × [185] c-Al2O3 MoS2 56 × [176] Au(111) MoS2 50 × [186] Au(111) MoS2 50 × [187] Ag(111) MoS2 50 × [188] 下载:
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