Y.Y. Kim scite author profile

Y.Y. Kim

4Publications

65Citation Statements Received

34Citation Statements Given

How they've been cited

133

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Affiliations

Sungkyunkwan University

Publications

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Layer by Layer Etching of the Highly Oriented Pyrolythic Graphite by Using Atomic Layer Etching

Kim

Lim

Park

et al. 2011

J. Electrochem. Soc.

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The layers of exfoliation graphene obtained by scotch taping of highly oriented pyrolythic graphite could be controlled precisely using an atomic layer etching (ALET) technology. Using the ALET, that is, by adsorbing oxygen radicals chemically on the graphene surface during the adsorption step and by removing the chemisorbed species only by Ar particle beam irradiation during the desorption step, exactly one monolayer of graphene could be removed during each etch cycle. The removal of each graphene layer by each ALET etch cycle could be observed through the optical microscope. In addition, the decrease of graphene layers could be also observed through the peak position change/broadening of G Raman peak. However, after the ALET, physical damage on the graphene surface could be also observed by the increase of D peak and decrease of G peak using the Raman spectra. The damaged graphene could be partially recovered by annealing at 1000 • C for 30 minutes in 130 mTorr H 2 /He environment.Recent ITRS (International Technology Roadmap for Semiconductors) roadmap shows that materials such as graphene, Ge, III-V semiconductor, and carbon nanotubes are emerging research device materials for the next generation devices which can replace silicon materials to decrease power consumption and to improve the performance of the device. 1 Among these materials, graphene which is composed of one or a few layers of carbon atoms with two dimensional hexagonal arrangement is investigated the most as the high speed semiconductor device materials because it has a high mobility of 3000 ∼ 27000 cm 2 /Vs at room temperature and a high conductivity. 2 Most of the graphene is fabricated by exfoliation of graphite crystal 3 or by chemical vapor deposition (CVD). 4 Among these, the exfoliation graphene which is obtained from highly oriented pyrolythic graphite (HOPG) flake is high quality graphene and shows higher mobility compared to the graphene grown by CVD, therefore, it is studied by many researchers as the ideal material for the investigation of the next generation graphene devices such as field effect transistor, 5 gas-sensor, 6 bio-sensor, 7 etc. Especially, the decrease of graphene layers from multilayer to monolayer decreases the interlayer scattering, and which increases the mobility sharply by the current modulation 8 and changes band structure. 9 Therefore, the control of the number of graphene layers is one of the important factors in controlling the electrical properties of graphene and the technique in controlling the graphene layer needs to be investigated.The number of layers has been controlled by growing and stacking the monolayer CVD graphenes on a separate substrate, 4 or by etching the graphene by O 2 plasma, 10 or by removing the graphene layers through the oxidation at a high temperature, 11 etc. However, these methods are difficult to control the layers of graphene precisely and locally which is beneficial in fabricating graphene devices. Recently, a technique to remove a monolayer graphene only on a local area by sele...

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High-temperature growth and in-situ annealing of MgZnO thin films by RF sputtering

Kim

Cho

et al. 2008

Thin Solid Films

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An investigation on the causes of cycle variation in direct injection hydrogen fueled engines

Kim

Lee

Choi

2005

International Journal of Hydrogen Energy

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Effects of the thickness of the channel layer on the device performance of InGaZnO thin-film-transistors

Woo

Kim

Kong

et al. 2010

Surface and Coatings Technology

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Y.Y. Kim

Layer by Layer Etching of the Highly Oriented Pyrolythic Graphite by Using Atomic Layer Etching

High-temperature growth and in-situ annealing of MgZnO thin films by RF sputtering

An investigation on the causes of cycle variation in direct injection hydrogen fueled engines

Effects of the thickness of the channel layer on the device performance of InGaZnO thin-film-transistors

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