Emtsev Konstantin V, Bostwick Aaron, Horn Karsten, Jobst Johannes, Kellogg Gary L, Ley Lothar, McChesney Jessica L, Ohta Taisuke, Reshanov Sergey A, Röhrl Jonas, Rotenberg Eli, Schmid Andreas K, Waldmann Daniel, Weber Heiko B, Seyller Thomas
Lehrstuhl für Technische Physik, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erwin-Rommel-Str. 1, 91058 Erlangen, Germany.
Nat Mater. 2009 Mar;8(3):203-7. doi: 10.1038/nmat2382. Epub 2009 Feb 8.
Graphene, a single monolayer of graphite, has recently attracted considerable interest owing to its novel magneto-transport properties, high carrier mobility and ballistic transport up to room temperature. It has the potential for technological applications as a successor of silicon in the post Moore's law era, as a single-molecule gas sensor, in spintronics, in quantum computing or as a terahertz oscillator. For such applications, uniform ordered growth of graphene on an insulating substrate is necessary. The growth of graphene on insulating silicon carbide (SiC) surfaces by high-temperature annealing in vacuum was previously proposed to open a route for large-scale production of graphene-based devices. However, vacuum decomposition of SiC yields graphene layers with small grains (30-200 nm; refs 14-16). Here, we show that the ex situ graphitization of Si-terminated SiC(0001) in an argon atmosphere of about 1 bar produces monolayer graphene films with much larger domain sizes than previously attainable. Raman spectroscopy and Hall measurements confirm the improved quality of the films thus obtained. High electronic mobilities were found, which reach mu=2,000 cm (2) V(-1) s(-1) at T=27 K. The new growth process introduced here establishes a method for the synthesis of graphene films on a technologically viable basis.
石墨烯,即单层石墨,因其新颖的磁输运特性、高载流子迁移率以及直至室温的弹道输运特性,近来引起了广泛关注。在摩尔定律后的时代,它有潜力作为硅的继任者,应用于技术领域,如作为单分子气体传感器、用于自旋电子学、量子计算或作为太赫兹振荡器。对于此类应用,在绝缘衬底上均匀有序地生长石墨烯是必要的。先前有人提出通过在真空中高温退火,在绝缘碳化硅(SiC)表面生长石墨烯,以此为大规模生产基于石墨烯的器件开辟一条途径。然而,SiC的真空分解会产生小晶粒(30 - 200纳米;参考文献14 - 16)的石墨烯层。在此,我们表明在约1巴的氩气气氛中对Si端接的SiC(0001)进行非原位石墨化处理,可产生畴尺寸比之前所能达到的大得多的单层石墨烯薄膜。拉曼光谱和霍尔测量证实了由此获得的薄膜质量得到了改善。发现其具有高电子迁移率,在T = 27 K时达到μ = 2,000 cm²V⁻¹s⁻¹。这里介绍的新生长工艺建立了一种在技术可行的基础上合成石墨烯薄膜的方法。
