![]() ![]() Int J Pharm Sci Inv 3:40–45įang L, Ohfuji H, Irifune T (2013) A novel technique for the synthesis of nanodiamond powder. Kazi S (2014) A review article on nanodiamonds discussing their properties and applications. Luo C, Qi X, Pan C, Yang W (2015) Diamond synthesis from carbon nanofibers at low temperature and low pressure. Kitabatake M, Wasa K (1985) Growth of diamond at room temperature by an ion-beam sputter deposition under hydrogen-ion bombardment. Mōri T, Namba Y (1983) Hard diamondlike carbon films deposited by ionized deposition of methane gas. Kamo M, Sato Y, Matsumoto S, Setaka N (1983) Diamond synthesis from gas phase in microwave plasma. Setaka N (1984) Low pressure gas phase synthesis of diamonds. 3030188 Washington DC: US Patent and Trademark OfficeĮversole WG (1958) Diamond synthesis. Giardini AA, Tydings JE (1962) Diamond synthesis-observations on mechanism of formation. Hall HT (1960) Ultra-high-pressure, high-temperature apparatus: the”belt”. 3030 187 Washington DC: US Patent and Trademark Office Am Mineral 46:976–983ĭe Carli PS, Milton DJ (1965) Stishovite: synthesis by shock wave. Giardini AA, Kohn JA, Eckart DW, Tydings JE (1961) The formation of coesite and kyanite from pyrophyllite at very high pressures and high temperatures. J Franklin Inst 110(2):123–135īundy FP, Bovenkerk HP, Strong HM, Wentorf RH Jr (1961) Diamond-graphite equilibrium line from growth and graphitization of diamond. Hannay JB (1880) On the artificial formation of the diamond. The methods are discussed pictorially or diagrammatically where necessary. ![]() Two approaches namely top-down and bottom-up are considered to discuss the synthesis of graphene by different methods. Physical methods like laser ablation, arc discharge, and chemical method like CVD are used to prepared carbon nanotube effectively. Carbon nanofiber is synthesized by CVD as well as electrospinning and template methods. Carbon fibers of high performance derived from different precursors are discussed in details. Moreover, carbon black is also prepared by pyrolysis of polymer and hydrocarbon, plasma synthesis, and by hydrolysis of natural resources. The preparation of carbon black by various processes has been reported. The synthesis of diamond has been majorly focussed by chemical vapor deposition (CVD) method, whereas the other ion beam sputtering method and an ionized deposition method has also been mentioned herein. Though there are several methods of synthesis/preparation of carbons, the most common and important ones are discussed herein. This chapter focuses on the synthesis/preparation of different carbon materials namely, diamond, fullerene, graphite, carbon black, carbon fiber, carbon nanofiber, carbon nanotube, and graphene. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |