Graphene has attracted considerable attention since its first production from graphite in 2004, due to its outstanding physical and chemical properties. The development of production methodsfor large scale, high quality graphene films is an essentialstep toward realizing graphene applications such as transparent, conductive film. Chemical deposition methods, using metal catalystsand gaseous carbon sources, have been extensively developed for large area synthesis. In this paper, wereview recent progress ingraphene production, and survey the role of graphene electrodes in various electronic devices such as touch panels, solar cells, solid statelighting and microelectronic devices.

1 X. Hong, "Unusual Resistance Hysteresis in n-layer Graphene Field Effect Transistors Fabricated on Ferroelectric Pb(Zr0.2Ti0.8)O3" 97 : 033114-, 2010

2 X. Wang, "Transparent, Conductive Graphene Electrodes for Dye-Sensitized Solar Cells" 8 : 323-327, 2008

3 K. Chung, "Transferable GaN Layers Grown on ZnO-Coated Graphene Layers for Optoelectronic Devices" AMER ASSOC ADVANCEMENT SCIENCE 330 (330): 655-657, 2010

4 K. V. Emtsev, "Towards Wafer-size Graphene Layers by Atmospheric Pressure Graphitization of Silicon Carbide" 8 : 203-207, 2009

5 J. E. Lee, "Thermal Stability of Metal Ohmic Contact Tin Indium-gallium-zinc-oxide Transistors Using Graphene Barrier Layer" 102 : 113112-, 2013

6 J.-U. Park, "Synthesis of Monolithic Graphene–graphite Integrated Electronics" 11 : 120-125, 2012

7 A. A. Balandin, "Superior Thermal Conductivity of Single-Layer Graphene" 8 : 902-907, 2008

8 B. J. Kim, "Stretchable Graphene Transistors with Printed Dielectrics and Gate Electrodes" AMER CHEMICAL SOC 11 : 4642-4646, 2011

9 S. Tongay, "Stable Hole Doping of Graphene for Low Electrical Resistance and High Optical Transparency" 22 : 425701-, 2011

10 S. Bae, "Roll-to-roll production of 30-inch graphene films for transparent electrodes" NATURE PUBLISHING GROUP 5 (5): 574-578, 2010

11 L. Gao, "Repeated Growth and Bubbling Transfer of Graphene with Millimetre-size Single-crystal Grains Using Platinum" 3 : 699-, 2012

12 J. O. Hwang, "Reduced Graphene Transparent Electrodes" 6 : 15967-, 2011

13 Y. Zhu, "Recent Rational Design of Hybrid Graphene Films for High-Performance Transparent Electrodes" 5 : 6472-6479, 2011

14 T. Kuila, "Recent Advances in Graphene-based Biosensors" 26 : 4637-4648, 2011

15 T. Kobayashi, "Production of a 100-m-long High-quality Graphene Transparent Conductive Film by Roll-to-roll Chemical Vapor Deposition and Transfer Process" 102 : 023112-, 2013

16 J. D. Fowler, "Practical Chemical Sensors from Chemically Derived Graphene" 3 : 301-306, 2009

17 B. H. Lee, "Novel Film- Casting Method for High-Performance Flexible Polymer Electrodes" 21 : 487-493, 2011

18 B. Lee, "Modification of Electronic Properties of Graphene with Self-Assembled Mono layers" 10 : 242732-, 2010

19 X. Wei, "Measurement of the elastic properties and intrinsic strength of monolayer graphene" AMER ASSOC ADVANCEMENT SCIENCE 321 (321): 385-388, 2008

20 Y.-J. Kim, "Low Temperature Growth and Direct Transfer of GrapheneGraphitic Carbon Films on Flexible Plastic Substrates" 23 : 344016-, 2012

21 C.-L. Hsu, "Layer-by-Layer Graphene/TCNQ Stacked Films as Conducting Anodes for Organic Solar Cells" 6 : 503139-, 2012

22 K. S. Kim, "Largescale Pattern Growth of Graphene Films for Stretchable Transparent electrodes" 457 : 706-710, 2009

23 G. Jo, "Large-scale Patterned Multi-layer Graphene Films as Transparent Conducting Electrodes for GaN Lightemitting Diodes" 21 : 175201-, 2010

24 G. Eda, "Large-Area Ultrathin Films of Reduced Graphene Oxide as a Transparent and Flexible Electronic Material" 3 : 270-274, 2008

25 Y. Wang, "Interface Engineering of Layer-by-Layer Stacked Graphene Anodes for High-Performance Organic Solar Cells" 23 : 1514-1518, 2011

26 M. Vosgueritchian, "Highly Conductive and Transparent PEDOT:PSS Films with a Fluorosurfactant for Stretchable and Flexible Transparent Electrodes" 22 : 421-428, 2012

27 X. Miao, "High Eciency Graphene Solar Cells by Chemical Doping" 12 : 2745-2750, 2012

28 G.-X. Ni, "GrapheneFerroelectric Hybrid Structure for Flexible Transparent Electrodes" 6 : 393542-, 2012

29 X. Li, "Graphene-On-Silicon Schottky Junction Solar Cells" 22 : 2743-2748, 2010

30 P. Blake, "Graphene-Based Liquid Crystal Device" 8 : 170408-, 2008

31 R. Prasher, "Graphene Spreads the Heat" 328 : 185-186, 2010

32 G. D. Yuan, "Graphene Sheets via Microwave Chemical Vapor Deposition" 467 : 361-364, 2009

33 Q. Yu, "Graphene Segregated on Ni Surfaces and Transferred to Insulators" 93 : 113103-, 2008

34 H. Yang, "Graphene Barristor, a Triode Device with a Gate-Controlled Schottky Barrier" AMER ASSOC ADVANCEMENT SCIENCE 336 (336): 1140-1143, 2012

35 K. S. Lee, "Flexible and Platinum-Free Dye-Sensitized Solar Cells with Conducting Polymer-Coated Graphene Counter Electrodes" 5 : 379-382, 2012

36 R. R. Nair, "Fine Structure Constant Defines Visual Transparency of Graphene" 320 : 1308-, 2008

37 T.-H. Han, "Extremely Efficient Flexible Organic Light-emitting Diodes with Modified Graphene Anode" NATURE PUBLISHING GROUP 6 : 105-110, 2012

38 K. K. Kim, "Enhancing the Conductivity of Transparent Graphene Films via Doping" 21 : 285205-, 2010

39 K. S. Novoselov, "Electric Field Effect in Atomically Thin Carbon Films" 306 : 666-669, 2004

40 H. Park, "Doped Graphene Electrodes for Organic Solar Cells" 21 : 505204-, 2010

41 I. Meric, "Current saturation in Zero-bandgap, Topgated Graphene Field-effect Transistors" 3 : 654-659, 2008

42 D. C. Elias, "Control of Graphene’s Properties by Reversible Hydrogenation : Evidence for Graphene" 323 : 610-613, 2009

43 L. G. D. Arco, "Continuous, Highly Flexible, and Transparent Graphene Films by Chemical Vapor Deposition for Organic Photovoltaics" 4 : 2865-2873, 2010

44 H. Y. Jang, "All Graphene-Based Thin Film Transistors on Flexible Plastic Substrates" AMER CHEMICAL SOC 12 (12): 3472-3476, 2012

45 H. Tian, "A Novel Flexible Capacitive Touch Pad Based on Graphene Oxide Film" 5 : 890-894, 2013

46 X. Y. Zeng, "A New Transparent Conductor: Silver Nanowire Film Buried at the Surface of a Transparent Polymer" 22 : 4484-4488, 2010

47 Y.-M. Lin, "100-GHz Transistors from Wafer-Scale Epitaxial Graphene" 327 : 662-, 2010