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[47] Zhu Y, Moldovan N, Espinosa HD. A microelectromechanical load sensor for in situ electron and x-ray microscopy tensile testing of nanostructures. Applied Physics Letters 2005;86:013506-1-3. [48] Samuel B, Haque M, Yi B, Rajagopalan R, Foley HC. Mechanical testing of pyrolysed poly-furfuryl alcohol nanofibres. Nanotechnology 2007;18:115704-1-8. [49] Lu S, Guo Z, Ding W, Ruoff RS. Analysis of a microelectromechanical system testing stage for tensile loading of nanostructures. Review Of Scientific Instruments 2006;77:056103-1-4. [50] Naraghi M, Ozkan T, Chasiotis I, Hazra SS, and de Boer MP. MEMS platform for on-chip nanomechanical experiments with strong and highly ductile nanofibers. Journal of Micromechanics and Microengineering 2010; 20: 125022- 1-9. [51] Naraghi M., Chasiotis I. Optimization of comb-driven devices for mechanical testing of polymeric nanofibers subjected to large deformations. J. Microelectromech. Syst. 2009;38:1032-1046. [52] Medeiros ES, Mattoso LHC, Offeman RD, Wood DF, Orts WJ. Effect of relative humidity on the morphology of electrospun polymer fibers. Canadian Journal Of Chemistry 2008;86:590-599. [53] Marsano E, Francis L, Giunco F. Polyamide 6 nanofibrous nonwovens via electrospinning. Journal Of Applied Polymer Science 2010;117:1754-1765. [54] Vrieze S, Camp T, Nelvig a, HagstroĢm B, Westbroek P, Clerck K. The effect of temperature and humidity on electrospinning. Journal Of Materials Science 2008;44:1357-1362. [55] Casper CL, Stephens JS, Tassi NG, Chase DB, Rabolt JF. Controlling surface morphology of electrospun polystyrene fibers: effect of humidity and molecular weight in the electrospinning process. Macromolecules 2004;37:573-578. [56] Theron A, Zussman E, Yarin AL. Electrostatic field-assisted alignment of electrospun nanofibres. Nanotechnology 2001;12:384-390. 45PDF Image | HIGH STRENGTH CARBON NANOFIBERS DERIVED FROM ELECTROSPUN POLYACRYLONITRILE
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