AC-Impedance Spectroscopic Analysis on the Charge Transport in CVD-Grown Graphene Devices with Chemically Modified Substrates

Min Bok Ki; Kim Seong K.; Kim Seong Ho; Kang Min-A; Noothongkaew Suttinart; Mills Edmund M.; Song Wooseok; Myung Sung; Lim Jongsun; Kim Sangtae; An Ki-Seok

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AC-Impedance Spectroscopic Analysis on the Charge Transport in CVD-Grown Graphene Devices with Chemically Modified Substrates

机译：交流阻抗谱分析带有化学修饰衬底的CVD生长石墨烯器件中的电荷传输

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A comprehensive study for the effect of interfacial buffer layers on the electrical transport behavior in CVD-grown graphene based devices has been performed by ac-impedance spectroscopy (IS) analysis. We examine the effects of the trap charges at graphene/SiO2 interface on the total capacitance by introducing self-assembled monolayers (SAMs). Furthermore, the charge transports in the polycrystalline graphene are characterized through the temperature-dependent IS measurement, which can be explained by the potential barrier model. The frequency-dependent conduction reveals that the conductivity of graphene is related with the mobility, which is limited by the scattering caused by charged adsorbates on SiO2 surface.

机译：已通过交流阻抗谱（IS）分析对界面缓冲层对基于CVD的石墨烯基器件中电传输行为的影响进行了全面研究。通过引入自组装单层（SAM），我们检查了石墨烯/ SiO2界面处的陷阱电荷对总电容的影响。此外，多晶石墨烯中的电荷传输通过与温度相关的IS测量来表征，这可以用势垒模型来解释。随频率变化的传导表明，石墨烯的电导率与迁移率有关，而迁移率受SiO2表面带电吸附物引起的散射限制。

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《ACS applied materials & interfaces》 |2016年第41期|共5页
作者
Min Bok Ki; Kim Seong K.; Kim Seong Ho; Kang Min-A; Noothongkaew Suttinart; Mills Edmund M.; Song Wooseok; Myung Sung; Lim Jongsun; Kim Sangtae; An Ki-Seok;
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正文语种 eng
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CVD-grown graphene; ac-impedance spectroscopy; self-assembled monolayers (SAMs); charge transport; ac conduction;

机译：CVD生长的石墨烯;交流阻抗谱;自组装单分子膜（SAMs）;电荷传输;交流传导;
入库时间 2022-08-19 12:27:51

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1. AC-Impedance Spectroscopic Analysis on the Charge Transport in CVD-Grown Graphene Devices with Chemically Modified Substrates [J] . Min Bok Ki, Kim Seong K., Kim Seong Ho, ACS applied materials & interfaces . 2016,第41期

机译：交流阻抗谱分析带有化学修饰衬底的CVD生长石墨烯器件中的电荷传输
2. AC-Impedance Spectroscopic Analysis on the Charge Transport in CVD-Grown Graphene Devices with Chemically Modified Substrates [J] . Min Bok Ki, Kim Seong K., Kim Seong Ho, ACS applied materials & interfaces . 2016,第41期

机译：交流阻抗谱分析化学修饰衬底的CVD生长石墨烯器件中电荷的迁移
3. Paper-based Electrochemical Devices Coupled to External Graphene-Cu Nanoparticles Modified Solid Electrode through Meniscus Configuration and their Use in Biological Analysis [J] . Petroni Jacqueline Marques, Lucca Bruno Gabriel, da Silva Junior Luiz Carlos, Electroanalysis . 2017,第11期

机译：通过弯月面构造和它们在生物分析中使用纸质电化学器件和外部石墨烯-Cu纳米颗粒改性固体电极
4. Anisotropic charge distribution of self-corrugated chemically modified graphene for high performance molecular sensor [C] . Seung Yol Jeong, Soo Yeon Jeong, Sang Won Lee Annual World Conference on Carbon . 2014

机译：高性能分子传感器的自波纹化学改性石墨烯的各向异性电荷分布
5. Spatial and spectroscopic imaging for chemical analysis utilizing scientifically operated charge transfer device array detectors. [D] . Baker, Mark Edwin. 1994

机译：使用科学操作的电荷转移装置阵列检测器进行化学分析的空间和光谱成像。
6. A continuous glucose monitoring device by graphene modified electrochemicalsensor in microfluidic system [O] . Zhihua Pu, Chongwei Zou, Ridong Wang, 2016

机译：石墨烯修饰电化学连续葡萄糖监测装置微流体系统中的传感器
7. Spatial and spectroscopic imaging for chemical analysis utilizing scientifically operated charge transfer device array detectors. [O] . Baker Mark Edwin. 1994

机译：使用科学操作的电荷转移装置阵列检测器进行化学分析的空间和光谱成像。
8. Transfer of CVD-Grown Monolayer Graphene onto Arbitrary Substrates. [R] . Suk, J. W., Kitt, A., Magnuson, C. W., 2011

机译：将CVD生长的单层石墨烯转移到任意基材上。

AC-Impedance Spectroscopic Analysis on the Charge Transport in CVD-Grown Graphene Devices with Chemically Modified Substrates

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