A non-contact graphene surface scattering rate characterization method at microwave frequency by combining Raman spectroscopy and coaxial connectors measurement

Xing-Chang Wei; Yi-Li Xu; Nan Meng

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A non-contact graphene surface scattering rate characterization method at microwave frequency by combining Raman spectroscopy and coaxial connectors measurement

机译：结合拉曼光谱和同轴连接器测量的微波频率非接触石墨烯表面散射率表征方法

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A non-contact method is proposed to characterize graphene at microwave frequency by combining Raman spectroscopy and Amphenol Precision Connector (APC-7). The CVD-grown graphene is transferred to the ring-shape Teflon substrate and characterized by Raman spectroscopy to estimate its doping density and the related Fermi energy. The graphene is then sandwiched between two APC-7 coaxial connectors and S parameters under transverse electromagnetic (TEM) mode normal incident waves are measured to extract the surface conductivity through transmission matrix, in which the de-embedding process can be avoided. By combing the Kubo formula with our proposed circuit model, the scattering rate of graphene on Teflon substrate is obtained and analyzed.

机译：提出了一种非接触方法，通过结合拉曼光谱和安费诺精密连接器（APC-7）在微波频率下表征石墨烯。将CVD生长的石墨烯转移到环形特氟隆衬底上，并通过拉曼光谱进行表征，以估计其掺杂密度和相关的费米能。然后将石墨烯夹在两个APC-7同轴连接器之间，并在横向电磁（TEM）模式下测量S参数法向入射波，以通过传输矩阵提取表面电导率，从而可以避免去嵌入过程。通过将Kubo公式与我们提出的电路模型相结合，获得并分析了石墨烯在特氟隆衬底上的散射速率。

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《Carbon: An International Journal Sponsored by the American Carbon Society》 |2014年第null期|共6页
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Xing-Chang Wei; Yi-Li Xu; Nan Meng;
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正文语种 eng
中图分类非金属元素及其无机化合物化学工业;化学;非金属材料;第Ⅳ族非金属元素及其无机化合物;
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1. A non-contact graphene surface scattering rate characterization method at microwave frequency by combining Raman spectroscopy and coaxial connectors measurement [J] . Xing-Chang Wei, Yi-Li Xu, Nan Meng Carbon: An International Journal Sponsored by the American Carbon Society . 2014,第Null期

机译：结合拉曼光谱和同轴连接器测量的微波频率非接触石墨烯表面散射率表征方法
2. The role of micro- and nanomorphology of rough silver surfaces of different nature in surface enhanced Raman scattering effect: A combined study of scanning force microscopy and low-frequency Raman modes [J] . Pignataro B., Compagnini G., Sassi P., The Journal of Chemical Physics . 2000,第14期

机译：不同性质的粗糙银表面的微观和纳米形态在表面增强拉曼散射效应中的作用：扫描力显微镜和低频拉曼模式的组合研究
3. Microwave-assisted synthesis of sensitive silver substrate for surface-enhanced Raman scattering spectroscopy [J] . Xia LX, Wang HB, Wang J, The Journal of Chemical Physics . 2008,第13期

机译：微波辅助合成敏感银底物用于表面增强拉曼散射光谱
4. Coaxial connectors used in DC, low frequency, radio frequency and microwave measurements [C] . . 1999

机译：用于直流，低频，射频和微波测量的同轴连接器
5. Waveguide Surface Coherent anti-Stokes Raman Scattering Spectroscopy and optical second harmonic generation spectroscopy of molecules adsorbed on metal oxide surfaces. [D] . Wijekoon, Wijekoon Mudiyanselage Kapila Piyasena. 1988

机译：波导表面相干抗斯托克斯拉曼散射光谱和光学二次谐波光谱，用于吸附在金属氧化物表面的分子。
6. Microwave-assisted green synthesis of Ag/reduced graphene oxide nanocomposite as a surface-enhanced Raman scattering substrate with high uniformity [O] . Kai-Chih Hsu, Dong-Hwang Chen 2014

机译：微波辅助绿色合成Ag /还原氧化石墨烯纳米复合材料作为具有高均匀度的表面增强拉曼散射基底
7. Microwave-assisted green synthesis of Ag/reduced graphene oxide nanocomposite as a surface-enhanced Raman scattering substrate with high uniformity [O] . Kai-Chih Hsu, Dong-Hwang Chen 2014

机译：微波辅助绿色合成Ag /还原氧化石墨烯纳米复合材料作为具有高均匀度的表面增强拉曼散射基底

A non-contact graphene surface scattering rate characterization method at microwave frequency by combining Raman spectroscopy and coaxial connectors measurement

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