异质结
材料科学
光电子学
带隙
饱和(图论)
半导体
凝聚态物理
物理
数学
组合数学
作者
Hong‐Xu Cao,Cheng‐Bao Yao,Hongyu Li,Bing‐Yin Shi,Xin-Yu Zheng,Yu Liu,Haitao Yin
标识
DOI:10.1016/j.optmat.2022.113410
摘要
The wide/narrow band gap semiconductor heterojunction promotes the coupling of light with matter and the rapid electron transport, which opens up a new research way for the construction of heterojunctions, photodetectors and quantum phenomena due to their excellent optical properties. Hereon, petal-like [email protected]2 and worm-like MoSe2 films were prepared by two-step/single-step RF magnetron sputtering method. Combined with the experimental results and the finite difference time domain (FDTD) simulation, it is proven that the 1T and 2H mixed phase MoSe2 can provide low energy growth sites for ZnO. [email protected]2 longitudinal n-p heterojunctions can form super-fast carrier transfer channels, enhancing the luminescence properties of heterojunctions in near-Gaussian fields. Moreover, both MoSe2 and [email protected]2 films show saturation absorption phenomenon with the coefficients of 0.43 × 10−7 mW−1 and 0.18 × 10−7 mW−1, respectively. The saturation absorption coefficient of [email protected]2 films is reduced due to Pauli blocking, which is caused by the electron transfer from the conduction band of MoSe2 to the conduction band of ZnO. The synthesized [email protected]2 films can be used in all optical switching, passive mode locking and other fields.
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