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Ultrafast Interlayer Electron Transfer in Incommensurate Transition Metal Dichalcogenide Homobilayers

范德瓦尔斯力 单层 异质结 石墨烯 堆积 材料科学 电子转移 化学物理 飞秒 磷烯 双层 皮秒 吸收(声学) 纳米技术 光电子学 化学 分子 光学 物理化学 物理 生物化学 复合材料 有机化学 激光器
作者
Yuanyuan Li,Qiannan Cui,Frank Ceballos,Samuel D. Lane,Zeming Qi,Hui Zhao
出处
期刊:Nano Letters [American Chemical Society]
卷期号:17 (11): 6661-6666 被引量:51
标识
DOI:10.1021/acs.nanolett.7b02608
摘要

Two-dimensional materials, such as graphene, transition metal dichalcogenides, and phosphorene, can be used to construct van der Waals multilayer structures. This approach has shown potentials to produce new materials that combine novel properties of the participating individual layers. One key requirement for effectively harnessing emergent properties of these materials is electronic connection of the involved atomic layers through efficient interlayer charge or energy transfer. Recently, ultrafast charge transfer on a time scale shorter than 100 fs has been observed in several van der Waals bilayer heterostructures formed by two different materials. However, information on the transfer between two atomic layers of the same type is rare. Because these homobilayers are essential elements in constructing multilayer structures with desired optoelectronic properties, efficient interlayer transfer is highly desired. Here we show that electron transfer between two monolayers of MoSe2 occurs on a picosecond time scale. Even faster transfer was observed in homobilayers of WS2 and WSe2. The samples were fabricated by manually stacking two exfoliated monolayer flakes. By adding a graphene layer as a fast carrier recombination channel for one of the two monolayers, the transfer of the photoexcited carriers from the populated to the drained monolayers was time-resolved by femtosecond transient absorption measurements. The observed efficient interlayer carrier transfer indicates that such homobilayers can be used in van der Waals multilayers to enhance their optical absorption without significantly compromising the interlayer transport performance. Our results also provide valuable information for understanding interlayer charge transfer in heterostructures.

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