Applied Physics A 2003,77(7):885–889. 21. Iijima S, Ajayan PM, Ichihashi T: Growth model for Acalabrutinib molecular weight Carbon nanotubes. Phys Rev Lett 1992,69(21):3100. 22. Journet Selleckchem Lazertinib C, Maser WK, Bernier P, Loiseau A, De La Chapelle ML, Lefrant D, Deniard P, Lee R, Fischer JE: Large-scale production of single-walled carbon nanotubes by the electric-arc technique. Nature 1997,388(6644):756–758. 23. He ZB, Maurice JL, Lee CS, Cojocaru CS, Pribat D:
Nickel catalyst faceting in plasma-enhanced direct current chemical vapor deposition of carbon nanofibers. The Arabian Journal for Science and Engineering 2010,35(1C):11–19. 24. Ebbesen TW, Ajayan PM: Large-scale synthesis of carbon nanotubes. Nature 1992,358(6383):220–222. 25. Bernholc J, Roland C, Yakobson BI: Nanotubes. Curr Opinion Solid State Mater Sci 1997,2(6):706–715. 26. Dervishi E, Li Z, Xu Y, Saini V, Biris AR, Lupu D, Biris AS: Carbon nanotubes: synthesis, properties, and applications. Part Sci Technol 2009,27(2):107–125. 27. Ajayan PM, Charlier JC, Rinzler AG: Carbon nanotubes: from macromolecules to nanotechnology. Proc Natl Acad Sci 1999,96(25):14199–14200. 28. Terrones M: Production and characterization of novel fullerene related materials: nanotubes, nanofibres and giant fullerenes. 1997. 29. Landi BJ, Raffaelle RP, Castro SL, Bailey SG: Single-wall carbon nanotube—polymer solar cells. Prog Photovolt Res Appl 2005,13(2):165–172. 30. Eklund PC, Pradhan
BK, Kim UJ, Xiong Q, Fischer JE, Friedman AD, Holloway BC, Jordan K, Smith MW: Large-scale production of single-walled carbon nanotubes using ultrafast pulses from a free electron laser. Nano Lett 2002,2(6):561–566.
31. Steiner SA, Baumann this website TF, Bayer BC, Blume R, Worsley MA, MoberlyChan WJ, Shaw EL: Nanoscale zirconia as a nonmetallic catalyst for graphitization of carbon and growth of single- and multiwall carbon nanotubes. J Am Chem Soc 2009,131(34):12144–12154. 32. Choudhary N, Hwang CYTH4 S, Choi W: Carbon nanomaterials: a review. In Handbook of Nanomaterials Properties. USA: Springer; 2014:709. 33. Tempel H, Joshi R, Schneider JJ: Ink jet printing of ferritin as method for selective catalyst patterning and growth of multiwalled carbon nanotubes. Mater Chem Phys 2010,121(1):178–183. 34. Smajda R, Andresen JC, Duchamp M, Meunier R, Casimirius S, Hernadi K, Forr+¦ L, Magrez A: Synthesis and mechanical properties of carbon nanotubes produced by the water assisted CVD process. Physica status solidi (b) 2009,246(11–12):2457–2460. 35. Patole SP, Alegaonkar PS, Lee HC, Yoo JB: Optimization of water assisted chemical vapor deposition parameters for super growth of carbon nanotubes. Carbon 2008,46(14):1987–1993. 36. Banerjee S, Naha S, Puri IK: Molecular simulation of the carbon nanotube growth mode during catalytic synthesis. Appl Phys Lett 2008,92(23):233121. 37. Brown B, Parker CB, Stoner BR, Glass JT: Growth of vertically aligned bamboo-like carbon nanotubes from ammonia/methane precursors using a platinum catalyst. Carbon 2011,49(1):266–274. 38.