Nanotechnology. 2017 May 12;28(19):195605. doi: 10.1088/1361-6528/aa6827. Epub 2017 Mar 21.
Monolayer and/or atomically thin transition metal dichalcogenides cover a wide range of two-dimensional (2D) materials, whose fascinating semiconducting and optical properties have made them promising candidate materials for optoelectronic devices. Controllable growth of these materials is critical for their device applications. By using MoCl and HS as precursors, monolayer and ultrathin molybdenum disulfide (MoS) films with controlled lamellar structure have been directly built layer by layer on SiO substrates without being followed by high-temperature annealing. Furthermore, the thickness of MoS films can be precisely regulated by applying different atomic layer deposition (ALD) cycles. Once an ALD cycle is applied, one molecular layer of MoS material will be 'added' on the substrate or original existing MoS films. At the initial stage (one to three ALD cycles), the density of MoS materials increases with an increase in ALD cycles, while a large area of continuous MoS film on the substrate can be obtained when four or more ALD cycles are applied. In this way, excellent triangular crystals of MoS with controlled atomic size in thickness and a highly oriented hexagonal crystal structures can be obtained by applying definite ALD cycles.
单层和/或原子层薄的过渡金属二卤化物涵盖了广泛的二维(2D)材料,其迷人的半导体和光学性质使它们成为光电设备的有前途的候选材料。这些材料的可控生长对于其器件应用至关重要。通过使用 MoCl 和 HS 作为前体,在没有后续高温退火的情况下,单层和超薄的二硫化钼(MoS)薄膜可以直接在 SiO 衬底上逐层构建,具有可控的层状结构。此外,通过施加不同的原子层沉积(ALD)循环,可以精确调节 MoS 薄膜的厚度。一旦施加一个 ALD 循环,就会有一层 MoS 材料“添加”到衬底或原始存在的 MoS 薄膜上。在初始阶段(一到三个 ALD 循环),随着 ALD 循环的增加,MoS 材料的密度增加,而当施加四个或更多的 ALD 循环时,可以在衬底上获得大面积的连续 MoS 薄膜。通过施加一定数量的 ALD 循环,可以获得具有可控原子尺寸厚度和高度取向的六边形晶体结构的 MoS 的优良三角形晶体。
