References
- Geim AK. Graphene: status and prospects. Science. 2009;324:1530–1534.
- Ovid'ko IA. Mechanical properties of graphene. Rev Adv Mater Sci. 2013;34:1–11.
- Lambin P. Elastic properties and stability of physisorbed graphene. Appl Sci. 2014;4:282–304.
- Lee C, Wei X, Kysar JW, et al. Measurement of the elastic properties and intrinsic strength of monolayer graphene. Science. 2008;321:385–388.
- Frank IW, Tanenbaum DM, van der Zande AM, et al. J Vac Sci Technol B. 2007;25:2558–2561.
- Lee G-H, Cooper RC, An SJ, et al. High-strength chemical-vapor–deposited graphene and grain boundaries. Science. 2013;340:1073–1076.
- Yamamoto M, Pierre-Louis O, Huang J, et al “The princess and the pea” at the nanoscale: wrinkling and delamination of graphene on nanoparticles. Phys Rev X. 2012;2:041018-1–041018-11.
- Li T. Extrinsic morphology of graphene. Model Simul Mater Sci Eng. 2011;19:054005-1–054005-15.
- Katsnelson MI, Geim AK. Electron scattering on microscopic corrugations in graphene. Phil Trans R Soc A. 2008;366:195–204.
- Ni G-X, Zheng Y, Bae S, et al. Quasi-periodic nanoripples in graphene grown by chemical vapor deposition and its impact on charge transport. ACS Nano. 2012;6:1158–1164.
- Boukhvalov DW, Katsnelson MI. Enhancement of chemical activity in corrugated graphene. J Phys Chem C. 2009;113:14176–14178.
- Boukhvalov DW. Tuneable molecular doping of corrugated graphene. Surf Sci. 2010;604:2190–2193.
- Deák A, Hild E, Kovács AL, et al. Contact angle determination of nanoparticles: film balance and scanning angle reflectometry studies. Phys Chem Chem Phys. 2007;9:6359–6370.
- Deák A, Bancsi B, Tóth AL, et al. Complex Langmuir–Blodgett films from silica nanoparticles: an optical spectroscopy study. Colloids Surf A. 2006;278:10–16.
- Pittenger B, Erina N, Su C. Quantitative mechanical property mapping at the nanoscale with PeakForce QNM. Bruker Nano Surfaces Division. 2012;AN128:1–12.
- Hutter JL, Bechhoefer J. Calibration of atomic-force microscope tips. Rev Sci Instrum. 1993;64:1868–1873.
- Pang S, Englert JM, Tsao HN, et al. Extrinsic corrugation-assisted mechanical exfoliation of monolayer graphene. Adv Mater. 2010;22:5374–5377.
- Osváth Z, Gergely-Fülöp E, Nagy N, et al. Controlling the nanoscale rippling of graphene with SiO2 nanoparticles. Nanoscale. 2014;6:6030–6036.
- Tan X, Wu J, Zhang K, et al. Nanoindentation models and Young's modulus of monolayer graphene: a molecular dynamics study. Appl Phys Lett. 2013;102:071908-1–071908-4.
- Wan KT, Guo S, Dillard DA. A theoretical and numerical study of a thin clamped circular film under an external load in the presence of a tensile residual stress. Thin Solid Films. 2003;425:150–162.
- Komaragiri U, Begley MR, Simmonds JG. The mechanical response of freestanding circular elastic films under point and pressure loads. J Appl Mech. 2005;72:203–212.
- Begley MR, Mackin TJ. Spherical indentation of freestanding circular thin films in the membrane regime. J Mech Phys Solids. 2004;52:2005–2023.
- Scott ON, Begley MR, Komaragiri U, et al. Indentation of freestanding circular elastomer films using spherical indenters. Acta Materialia. 2004;52:4877–4885.
- Blakeslee OL, Proctor DG, Seldin EJ, et al. Elastic constants of compression-annealed pyrolytic graphite. J Appl Phys. 1970;41:3373–3382.
- Koenig SP, Bodetti NG, Dunn ML, et al. Ultrastrong adhesion of graphene membranes. Nat Nanotechnol. 2011;6:543–546.
- Bunch JS, Verbridge SS, Alden JS, et al. Impermeable atomic membranes from graphene sheets. Nano Lett. 2008;8:2458–2462.