References
- Li , X , Cai , W , An , J , Kim , S , Nah , J , Yang , D , Piner , R , Velamakanni , A R , Jung , I , Tutuc , E , Banerjee , S K , Colombo , L and Ruoff , R S . 2009 . Large-area synthesis of high-quality and uniform graphene films on copper foils . Science. , 324 : 1312 – 1314 . (doi:10.1126/science.1171245)
- Liu , Y and Yakobson , B I . 2010 . Cones, pringles, and grain boundary landscapes in graphene topology . Nano Lett. , 10 : 2178 – 2183 . (doi:10.1021/nl100988r)
- Li , X , Magnuson , C W , Venugopal , A , An , J , Suk , J W , Han , B , Borysiak , M , Cai , W , Velamakanni , A , Zhu , Y , Fu , L , Vogel , E M , Voelkl , E , Colombo , L and Ruoff , R S . 2010 . Graphene films with large domain size by a two-step chemical vapor deposition process . Nano Lett. , 10 : 4328 – 4334 . (doi:10.1021/nl101629g)
- Yazyev , O V and Louie , S G . 2010 . Electronic transport in polycrystalline graphene . Nature Mater. , 9 : 806 – 809 . (doi:10.1038/nmat2830)
- Huang , P Y , Ruiz-Vargas , C S , van der Zande , A M , Whitney , W S , Levendorf , M P , Kevek , J W , Garg , S , Alden , J S , Hustedt , C J , Zhu , Y , Park , J , McEuen , P L and Muller , D A . 2011 . Imaging grains and grain boundaries in single-layer graphene: an atomic patchwork quilt . Nature. , 469 : 389 – 392 . (doi:10.1038/nature09718)
- Kim , K , Lee , Z , Regan , W , Kisielowski , C , Crommie , M F and Zettl , A . 2011 . Grain boundary mapping in polycrystalline graphene . ACS Nano. , 5 : 2142 – 2146 . (doi:10.1021/nn1033423)
- An , J , Voelkl , E , Suk , J W , Li , X , Magnuson , C W , Fu , L , Tiemeijer , P , Bischoff , M , Freitag , B , Popova , E and Ruoff , R S . 2011 . Domain (grain) boundaries and evidence of “twinlike” structures in chemically vapor deposited grown graphene . ACS Nano. , 5 : 2433 – 2439 . (doi:10.1021/nn103102a)
- Grantab , R , Shenoy , V B and Ruoff , R S . 2010 . Anomalous strength characteristics of tilt grain boundaries in graphene . Science. , 330 : 946 – 948 . (doi:10.1126/science.1196893)
- Bolotin , K I , Sikes , K J , Jiang , Z , Klima , M , Fudenberg , G , Hone , J , Kim , P and Stormer , H L . 2008 . Ultrahigh electron mobility in suspended graphene . Solid State Commun. , 146 : 351 – 355 . (doi:10.1016/j.ssc.2008.02.024)
- Li , X , Magnuson , C W , Venugopal , A , Tromp , R M , Hannon , J B , Vogel , E M , Colombo , L and Ruoff , R S . 2011 . Large-area graphene single crystals grown by low-pressure chemical vapor deposition of methane on copper . J Am Chem Soc. , 133 : 2816 – 2819 . (doi:10.1021/ja109793s)
- Robertson , A W and Warner , J H . 2011 . Hexagonal single crystal domains of few-layer graphene on copper foils . Nano Lett. , 11 : 1182 – 1189 . (doi:10.1021/nl104142k)
- Yu , Q , Jauregui , L A , Wu , W , Colby , R , Tian , J , Su , Z , Cao , H , Liu , Z , Pandey , D , Wei , D , Chung , T F , Peng , P , Guisinger , N P , Stach , E A , Bao , J , Pei , S S and Chen , Y P . 2011 . Control and characterization of individual grains and grain boundaries in graphene grown by chemical vapour deposition . Nature Mater. , 10 : 443 – 449 . (doi:10.1038/nmat3010)
- Wu , W , Jauregui , L A , Su , Z , Liu , Z , Bao , J , Chen , Y P and Yu , Q . 2011 . Growth of single crystal graphene arrays by locally controlling nucleation on polycrystalline Cu using chemical vapor deposition . Adv Mater. , 23 : 4898 – 4903 . (doi:10.1002/adma.201102456)
- Wofford , J M , Nie , S , McCarty , K F , Bartelt , N C and Dubon , O D . 2010 . Graphene islands on Cu foils: the interplay between shape, orientation, and defects . Nano Lett. , 10 : 4890 – 4896 . (doi:10.1021/nl102788f)
- Wu , Y A , Robertson , A W , Schäffel , F , Speller , S C and Warner , J H . 2011 . Aligned rectangular few-layer graphene domains on copper surfaces . Chem Mater. , 23 : 4543 – 4547 . (doi:10.1021/cm201823s)
- Liu , W , Li , H , Xu , C , Khatami , Y and Banerjee , K . 2011 . Synthesis of high-quality monolayer and bilayer graphene on copper using chemical vapor deposition . Carbon. , 49 : 4122 – 4130 . (doi:10.1016/j.carbon.2011.05.047)
- Liu , J , Wu , J , Edwards , C M , Berrie , C L , Moore , D , Chen , Z , Maroni , V A , Parans Paranthaman , M and Goyal , A . 2011 . Triangular graphene grain growth on cube-textured Cu substrates . Adv Funct Mater. , 21 : 3868 – 3874 . (doi:10.1002/adfm.201101305)
- Wang , H , Wang , G , Bao , P , Yang , S , Zhu , W , Xie , X and Zhang , W J . 2012 . Controllable synthesis of submillimeter single-crystal monolayer graphene domains on copper foils by suppressing nucleation . J Am Chem Soc. , 134 : 3627 – 3630 . (doi:10.1021/ja2105976)
- Wood , J D , Schmucker , S W , Lyons , A S , Pop , E and Lyding , J W . 2011 . Effects of polycrystalline Cu substrate on graphene growth by chemical vapor deposition . Nano Lett. , 11 : 4547 – 4554 . (doi:10.1021/nl201566c)
- Ogawa , Y , Hu , B , Orofeo , C M , Tsuji , M , Ikeda , K , Mizuno , S , Hibino , H and Ago , H . 2012 . Domain structure and boundary in single-layer graphene grown on Cu(111) and Cu(100) films . J Phys Chem Lett. , 3 : 219 – 226 . (doi:10.1021/jz2015555)
- Gao , L , Guest , J R and Guisinger , N P . 2010 . Epitaxial graphene on Cu(111) . Nano Lett. , 10 : 3512 – 3516 . (doi:10.1021/nl1016706)
- Vanin , M , Mortensen , J J , Kelkkanen , A K , Garcia-Lastra , J M , Thygesen , K S and Jacobsen , K W . 2010 . Graphene on metals: a van der Waals density functional study . Phys Rev B. , 81 : 081408 – 11 . (doi:10.1103/PhysRevB.81.081408)
- Vlassiouk , I , Regmi , M , Fulvio , P , Dai , S , Datskos , P , Eres , G and Smirnov , S . 2011 . Role of hydrogen in chemical vapor deposition growth of large single-crystal graphene . ACS Nano. , 5 : 6069 – 6076 . (doi:10.1021/nn201978y)
- Chae , S J , Gunes , F , Kim , K K , Kim , E S , Han , G H , Kim , S M , Shin , H J , Yoon , S M , Shin , H J , Yoon , S M , Choi , J Y , Park , M H , Yang , C W , Pribat , D and Lee , Y H . 2009 . Synthesis of large-area graphene layers on poly-nickel substrate by chemical vapor deposition: wrinkle formation . Adv Mater. , 21 : 2328 – 2333 . (doi:10.1002/adma.200803016)
- Hattab , H , N'Diaye , A T , Wall , D , Klein , C , Jnawali , G , Coraux , J , Busse , C , van Gastel , R , Poelsema , B , Michely , T , Meyer zu Heringdorf , F J and Horn-von Hoegen , M . 2012 . Interplay of wrinkles, strain, and lattice parameter in graphene on iridium . Nano Lett. , 12 : 678 – 682 . (doi:10.1021/nl203530t)
- Chen , S , Moore , A L , Cai , W , Suk , J W , An , J , Mishra , C , Amos , C , Magnuson , C W , Kang , J , Li , X and Ruoff , R S . 2011 . Raman measurements of thermal transport in suspended monolayer graphene of variable sizes in vacuum and gaseous environments . ACS Nano. , 5 : 321 – 328 . (doi:10.1021/nn102915x)
- Pereira , V M , Castro Neto , A H , Liang , H Y and Mahadevan , L . 2010 . Geometry, mechanics, and electronics of singular structures and wrinkles in graphene . Phys Rev Lett. , 105 : 156603 – 156606 . (doi:10.1103/PhysRevLett.105.156603)
- Pan , Z , Liu , N , Fu , L and Liu , Z . 2011 . Wrinkle engineering: a new approach to massive graphene nanoribbon arrays . J Am Chem Soc. , 133 : 17578 – 17581 . (doi:10.1021/ja207517u)
- Yan , J , Liu , J , Fan , Z , Wei , T and Zhang , L . 2012 . High-performance supercapacitor electrodes based on highly corrugated graphene sheets . Carbon. , 50 : 2179 – 2188 . (doi:10.1016/j.carbon.2012.01.028)
- Luo , Z , Kim , S , Kawamoto , N , Rappe , A M and Charlie Johnson , A T . 2011 . Growth mechanism of hexagonal-shape graphene flakes with zigzag edges . ACS Nano. , 5 : 9154 – 9160 . (doi:10.1021/nn203381k)
- Rasool , H I , Song , E B , Allen , M J , Wassei , J K , Kaner , R B , Wang , K L , Weiller , B H and Gimzewski , J K . 2011 . Continuity of graphene on polycrystalline copper . Nano Lett. , 11 : 251 – 256 . (doi:10.1021/nl1036403)