• Title/Summary/Keyword: Au/$TiO_2$/graphene

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Direct Synthesis of Au/TiO2/graphene Composites and Their Application for Degradation of Various Organic Dyes (그래파이트로부터 직접 제조한 Au/TiO2/그래핀 복합체와 이를 이용한 염료의 광분해에 관한 연구)

  • Jeong, Gyoung Hwa;Kim, Sang-Wook
    • Applied Chemistry for Engineering
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    • v.31 no.6
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    • pp.607-611
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    • 2020
  • In this research, we synthesized Au/TiO2/graphene composites using ionic surfactants for the exfoliation of graphite layers, directly. In the graphene composite, TiO2 with thin nanosheet shapes was distributed on the graphene surface and Au nanoparticles with less than 10 nm sizes were evenly distributed on the surface of the TiO2 nanosheets. The Au/TiO2/graphene composite was then applied to the photodegradation of various dyes such as methylene blue, methylene orange and rhodamine 6G, and B. Among them, the methylene blue showed the most excellent photodegradation activity (91.6%) while the rhodamine B exhibited 31.0%.

Fabrication of One-Dimensional Graphene Metal Edge Contact without Graphene Exfoliation

  • Choe, Jeongun;Han, Jaehyun;Yeo, Jong-Souk
    • Proceedings of the Korean Vacuum Society Conference
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    • 2016.02a
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    • pp.371.2-371.2
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    • 2016
  • Graphene electronics is one of the promising technologies for the next generation electronic devices due to the outstanding properties such as conductivity, high carrier mobility, mechanical, and optical properties along with extended applications using 2 dimensional heterostructures. However, large contact resistance between metal and graphene is one of the major obstacles for commercial application of graphene electronics. In order to achieve low contact resistance, numerous researches have been conducted such as gentle plasma treatment, ultraviolet ozone (UVO) treatment, annealing treatment, and one-dimensional graphene edge contact. In this report, we suggest a fabrication method of one-dimensional graphene metal edge contact without using graphene exfoliation. Graphene is grown on Cu foil by low pressure chemical vapor deposition. Then, the graphene is transferred on $SiO_2/Si$ wafer. The patterning of graphene channel and metal electrode is done by photolithography. $O_2$ plasma is applied to etch out the exposed graphene and then Ti/Au is deposited. As a result, the one-dimensional edge contact geometry is built between metal and graphene. The contact resistance of the fabricated one-dimensional metal-graphene edge contact is compared with the contact resistance of vertically stacked conventional metal-graphene contact.

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Synthesis and Characterization of Layer-Patterned Graphene on Ni/Cu Substrate

  • Jung, Daesung;Song, Wooseok;Lee, Seung Youb;Kim, Yooseok;Cha, Myoung-Jun;Cho, Jumi
    • Proceedings of the Korean Vacuum Society Conference
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    • 2013.02a
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    • pp.618-618
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    • 2013
  • Graphene is only one atom thick planar sheet of sp2-bonded carbon atoms arranged in a honeycomb crystal lattice, which has flexible and transparent characteristics with extremely high mobility. These noteworthy properties of graphene have given various applicable opportunities as electrode and/or channel for various flexible devices via suitable physical and chemical modifications. In this work, for the development of all-graphene devices, we performed to synthesize alternately patterned structure of mono- and multi-layer graphene by using the patterned Ni film on Cu foil, having much different carbon solid solubilities. Depending on the process temperature, Ni film thickness, introducing occasion of methane and gas ratio of CH4/H2, the thickness and width of the multi-layer graphene were considerably changed, while the formation of monolayer graphene on just Cu foil was not seriously influenced. Based on the alternately patterned structure of mono- and multi-layer graphene as a channel and electrode, respectively, the flexible TFT (thin film transistor) on SiO2/Si substrate was fabricated by simple transfer and O2 plasma etching process, and the I-V characteristics were measured. As comparing the change of resistance for bending radius and the stability for a various number of repeated bending, we could confirm that multi-layer graphene electrode is better than Au/Ti electrode for flexible applications.

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Soft Lithographic Patterning Method for Flexible Graphene-based Chemical Sensors with Heaters

  • Kang, Min-a;Jung, Min Wook;Myung, Sung;Song, Wooseok;Lee, Sun Suk;Lim, Jongsun;Park, Chong-Yun;An, Ki-Seok
    • Proceedings of the Korean Vacuum Society Conference
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    • 2014.02a
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    • pp.176.2-176.2
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    • 2014
  • In this work, we demonstrated that the fabrication of flexible graphene-based chemical sensor with heaters by soft lithographic patterning method [1]. First, monolayer and multilayer graphene were prepared by thermal chemical vapor deposition transferred onto SiO2 / Si substrate in order to fabrication of patterned-sensor and -heater. Second, patterned-monolayer and multilayer graphene were detached through soft lithography process, which was transferred on top and bottom sides of PET film. Third, Au / Ti (Thickness : 100/30 nm) electrodes were deposited end of the patterned-graphene line by sputtering system. Finally, we measured sensor properties through injection of NO2 and CO2 gas on different temperature with voltage change of graphene heater.

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