By Mahmood Aliofkhazraei, Nasar Ali, William I. Milne, Cengiz S. Ozkan, Stanislaw Mitura, Juana L. Gervasoni
"Graphene is the most powerful fabric ever studied and will be an effective replacement for silicon. there's no different significant reference paintings of this scope with regards to graphene, that is probably the most researched fabrics of the twenty-first century. The set contains contributions from best researchers within the box and a foreword written through Nobel laureates in physics. This quantity within the set specializes in fabrication methods"-- Read more...
summary: "Graphene is the most powerful fabric ever studied and will be a good replacement for silicon. there isn't any different significant reference paintings of this scope related to graphene, that's essentially the most researched fabrics of the twenty-first century. The set comprises contributions from best researchers within the box and a foreword written by means of Nobel laureates in physics. This quantity within the set specializes in fabrication equipment"
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Additional resources for Graphene science handbook. Fabrication methods
Materials for electrochemical capacitors. Nature Materials 2008, 7 (11), 845–854. 35. ; Baranowski, J. , Role of structure of C-terminated 4H-SiC(000 1 ) surface in growth of graphene layers: Transmission electron microscopy and density functional theory studies. Physical Review B 2012, 85 (4), 045426. ; Chialvo, C. ; Rogers, J. , Transfer of graphene layers grown on SiC wafers to other substrates and their integration into field effect transistors. Applied Physics Letters 2009, 95 (20), 202101–202101-3.
Journal of Physics D: Applied Physics 2010, 43 (37), 374009. Graphene Science Handbook 29. , Epitaxial growth of large-area single-layer graphene over Cu(111)/sapphire by atmospheric pressure CVD. Carbon 2012, 50 (1), 57–65. , A review of chemical vapour deposition of graphene on copper. Journal of Materials Chemistry 2011, 21 (10), 3324–3334. ; Piner, R. , Large-area synthesis of high-quality and uniform graphene films on copper foils. Science 2009, 324 (5932), 1312–1314. , An overview of the applications of graphene-based materials in supercapacitors.
Understanding and controlling the substrate effect on graphene electron-transfer chemistry via reactivity imprint lithography. Nature Chemistry 2012, 4 (9), 724–732. 66. ; Dresselhaus, M. , Transferring and identification of single- and few-layer graphene on arbitrary substrates. The Journal of Physical Chemistry C 2008, 112 (46), 17741–17744. 67. , Graphene annealing: How clean can it be? Nano Letters 2011, 12 (1), 414–419. ; Floresca, H. ; Jandhyala, S. , Rapid selective etching of PMMA residues from transferred graphene by carbon dioxide.