Effect of Crystal Orientation on Synthesis of Graphene Layers by Laser Decomposition of 4H-SiC

Sun Zhengyang; Ji Lingfei; Lin Zhenyuan; Zhang Tong; Xu Yuanbo; Zhang Litian

doi:10.3788/CJL202047.0802002

Chinese Journal of Lasers, Volume. 47, Issue 8, 802002(2020)

Effect of Crystal Orientation on Synthesis of Graphene Layers by Laser Decomposition of 4H-SiC

Sun Zhengyang^1,2, Ji Lingfei^1,2、*, Lin Zhenyuan^1,2, Zhang Tong^1,2, Xu Yuanbo^1,2, and Zhang Litian^1,2

¹Institute of Laser Engineering, Faculty of Materials and Manufacturing, Beijing University of Technology,Beijing 100124, China

²Key Laboratory of Trans-Scale Laser Manufacturing Technology of Ministry of Education, Beijing 100124, China

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References(28)

[1] Novoselov K S, Geim A K, Morozov S V et al. Electric field effect in atomically thin carbon films[J]. Science, 306, 666-669(2004).

[2] Uz M, Jackson K, Donta M S et al. Fabrication of high-resolution graphene-based flexible electronics via polymer casting[J]. Scientific Reports, 9, 10595(2019).

[3] Lee C, Wei X D, Kysar J W et al. Measurement of the elastic properties and intrinsic strength of monolayer graphene[J]. Science, 321, 385-388(2008).

[4] Cao Y, Fatemi V, Demir A et al. Correlated insulator behaviour at half-filling in magic-angle graphene superlattices[J]. Nature, 556, 80-84(2018).

[5] Yuan Y H, Chen X Y, Hu F R et al. Terahertz amplitude modulator based on metasurface/ion-gel/graphene hybrid structure[J]. Chinese Journal of Lasers, 46, 0614016(2019).

[6] Wang Y, Leng Y B, Dong L H et al. Design of tunable metamaterial absorber based on graphene-metal hybrid structure[J]. Acta Optica Sinica, 38, 0716001(2018).

[7] Stankovich S, Dikin D A, Piner R D et al. Synthesis of graphene-based nanosheets via chemical reduction of exfoliated graphite oxide[J]. Carbon, 45, 1558-1565(2007).

[8] Lee C K, Hwangbo Y, Kim S M et al. Monatomic chemical-vapor-deposited graphene membranes bridge a half-millimeter-scale gap[J]. ACS Nano, 8, 2336-2344(2014).

[9] Hernandez Y, Nicolosi V, Lotya M et al. High-yield production of graphene by liquid-phase exfoliation of graphite[J]. Nature Nanotechnology, 3, 563-568(2008).

[10] Gao X, Xu C X, Yin H et al. Preparation of graphene by electrical explosion of graphite sticks[J]. Nanoscale, 9, 10639-10646(2017).

[11] Novoselov K S. Fal'Ko V I, Colombo L, et al. A roadmap for graphene[J]. Nature, 490, 192-200(2012).

[12] Choi I, Jeong H Y, Jung D Y et al. Laser-induced solid-phase doped graphene[J]. ACS Nano, 8, 7671-7677(2014).

[13] Lin Z Y, Ji L F, Wu Y et al. Laser-induced interfacial state changes enable tuning of the Schottky-barrier height in SiC[J]. Applied Surface Science, 469, 68-75(2019).

[14] Antonelou A, Dracopoulos V, Yannopoulos S N. Laser processing of SiC: from graphene-coated SiC particles to 3D graphene froths[J]. Carbon, 85, 176-184(2015).

[15] Nierlly K, Getúlio V, Marcos V et al. Growth and characterization of graphene on polycrystalline SiC substrate using heating by CO2 laser beam[J]. Materials Research, 19, 1329-1334(2016).

[16] Masakazu H, Hiroshi I, Daisuke N et al. Direct growth of graphene on SiC(0001) by KrF-excimer laser irradiation[J]. Applied Physics Letters, 108, 093107(2016).

[17] Wang S C, Ji L F, Wu Y et al. Progress inresearch on luminescence properties and modification of SiC[J]. Journal of Materials Engineering, 45, 102-111(2017).

[18] Wu Y, Ji L F, Lin Z Y et al. Blue photoluminescence enhancement in laser-irradiated 6H-SiC at room temperature[J]. Applied Physics Letters, 104, 041906(2014).

[19] Hu L T, Ji L F, Wu Y et al. Preparation of p-type heavily-doped 4H-SiC by laser irradiation of solid Al film[J]. Chinese Journal of Lasers, 45, 0603003(2018).

[20] Ferrari A C, Meyer J C, Scardaci V et al. Raman spectrum of graphene and graphene layers[J]. Physical Review Letters, 97, 187401(2006).

[21] Lui C H, Li Z Q, Chen Z Y et al. Imaging stacking order in few-layer graphene[J]. Nano Letters, 11, 164-169(2011).

[22] Daas B K, Omar S U, Shetu S et al. Comparison of epitaxial graphene growth on polar and nonpolar 6H-SiC faces: on the growth of multilayer films[J]. Crystal Growth & Design, 12, 3379-3387(2012).

[23] Nguyen V H, Hoang T X, Dollfus P et al. Transport properties through graphene grain boundaries: strain effects versus lattice symmetry[J]. Nanoscale, 8, 11658-11673(2016).

[24] Tapasztó L, Nemes-Incze P, Dobrik G et al. Mapping the electronic properties of individual graphene grain boundaries[J]. Applied Physics Letters, 100, 053114(2012).

[25] Borysiuk J, Sołtys J, Piechota J et al. Structural defects in epitaxial graphene layers synthesized on C-terminated 4H-SiC (000 1-) surface: transmission electron microscopy and density functional theory studies[J]. Journal of Applied Physics, 115, 054310(2014).

[26] Starke U, Riedl C. Epitaxial graphene on SiC(0001) and SiC(000 1-): from surface reconstructions to carbon electronics[J]. Journal of Physics: Condensed Matter, 21, 134016(2009).

[27] Yu C, Li J, Liu Q et al. Buffer layer induced band gap and surface low energy optical phonon scattering in epitaxial graphene on SiC(0001)[J]. Applied Physics Letters, 102, 013107(2013).

[28] Ouerghi A, Silly M G, Marangolo M et al. Large-area and high-quality epitaxial graphene on off-axis SiC wafers[J]. ACS Nano, 6, 6075-6082(2012).

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Sun Zhengyang, Ji Lingfei, Lin Zhenyuan, Zhang Tong, Xu Yuanbo, Zhang Litian. Effect of Crystal Orientation on Synthesis of Graphene Layers by Laser Decomposition of 4H-SiC[J]. Chinese Journal of Lasers, 2020, 47(8): 802002

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Paper Information

Category: laser manufacturing

Received: Jan. 6, 2020

Accepted: --

Published Online: Aug. 24, 2020

The Author Email: Lingfei Ji (ncltji@bjut.edu.cn)

DOI:10.3788/CJL202047.0802002

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology