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Effect of surface oxidation on nonlinear optical absorption in WS_2 nanosheets

机译:表面氧化对WS_2纳米片中的非线性光学吸收的影响

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摘要

Controlling nanosheet size and understanding size-dependent surface oxidation are of quite importance for the nonlinear optical properties of two-dimensional materials. Herein, size-separation of WS2 nanosheets was prepared successfully using liquid phase exfoliation and a gradient centrifugation method. We confirmed the higher surface oxidation with the decrease of nanosheet size by both high-resolution X-ray photoelectron spectroscopy and Raman spectroscopy. To investigate the effect of size-dependent surface oxidation on nonlinear optical properties in WS2, Z-scan technique equipped with 800 nm femtosecond laser was used. We observed the conversion between saturable absorption and reverse saturable absorption in WS2 dispersions as well as the decrease of saturable absorption in WS2 films due to the increase of reverse saturable absorption contribution of WO3. Energy-level model based on type II WS2/WO3 heterostructure was put forth to understand nonlinear optical absorption of the oxidized WS2. The results show that charge transportation from WS2 to WO3 increases the reverse saturable absorption contribution in WO3 while decreases the saturable absorption in WS2. The results pave the way to design desirable nonlinear optical devices by controlling size with different level of surface oxidation.
机译:控制纳米片尺寸和理解尺寸依赖性表面氧化对于二维材料的非线性光学性能非常重要。在此,使用液相剥离和梯度离心方法成功地制备WS2纳米片的大小分离。通过高分辨率X射线光电子能谱和拉曼光谱,我们确认了纳米片尺寸的降低较高的表面氧化。为了研究大小依赖性表面氧化对WS2中非线性光学性质的影响,使用配备有800nm Femtosecond激光的Z扫描技术。我们观察到在WS2分散体中可饱和吸收和反向可饱和吸收之间的转化,以及由于WO3的反向可饱和吸收贡献的增加,WS2膜中可饱和吸收的降低。基于II型WS2 / WO3异质结构的能量水平模型得到了理解氧化WS2的非线性光学吸收。结果表明,WS2至WO3的电荷运输增加了WO3中的反向可饱和的吸收贡献,同时降低了WS2中可饱和的吸收。结果通过控制具有不同表面氧化水平的尺寸来铺平设计理想的非线性光学器件。

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  • 来源
    《Applied Surface Science》 |2020年第1期|147409.1-147409.7|共7页
  • 作者

    Lu Chunhui; Yang Dan; Ma Jingyao; Luo Mingwei; Jin Yanping; Xu Xinlong;

  • 作者单位

    Northwest Univ Inst Photon & Photon Technol Sch Phys Shaanxi Joi State Key Lab Incubat Base Photoelect Technol & F Int Collaborat Ctr Photoelect Technol & Nano Func Xian 710069 Peoples R China;

    Northwest Univ Inst Photon & Photon Technol Sch Phys Shaanxi Joi State Key Lab Incubat Base Photoelect Technol & F Int Collaborat Ctr Photoelect Technol & Nano Func Xian 710069 Peoples R China;

    Northwest Univ Inst Photon & Photon Technol Sch Phys Shaanxi Joi State Key Lab Incubat Base Photoelect Technol & F Int Collaborat Ctr Photoelect Technol & Nano Func Xian 710069 Peoples R China;

    Northwest Univ Inst Photon & Photon Technol Sch Phys Shaanxi Joi State Key Lab Incubat Base Photoelect Technol & F Int Collaborat Ctr Photoelect Technol & Nano Func Xian 710069 Peoples R China;

    Northwest Univ Inst Photon & Photon Technol Sch Phys Shaanxi Joi State Key Lab Incubat Base Photoelect Technol & F Int Collaborat Ctr Photoelect Technol & Nano Func Xian 710069 Peoples R China;

    Northwest Univ Inst Photon & Photon Technol Sch Phys Shaanxi Joi State Key Lab Incubat Base Photoelect Technol & F Int Collaborat Ctr Photoelect Technol & Nano Func Xian 710069 Peoples R China;

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  • 正文语种 eng
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  • 关键词

    WS2; Size-separation; Surface oxidation; Saturable absorption; Reverse saturable absorption;

    机译:WS2;尺寸分离;表面氧化;可饱和吸收;反向可饱和的吸收;

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