Chemistry Reference
In-Depth Information
[19] Cataldo, F. Synthesis of polyynes in a submerged electric arc in organic
solvents. Carbon 2004, 47, 129-142.
[20] Kasatochkin, V.I.; Savranskii, V.V.; Simimov, V.N.; Mel'nichenko, V.M.
A study of carbyne condensed from carbon vapor. Dokl. Akad. Nauk SSSR
1971, 217, 796-799.
[21] Whittaker, A.G.; Wolten, G.M. Carbon: a suggested new hexagonal crystal
form. Science 1972, 178, 54-56.
[22] Lagow, R.J.; Kampa, J.J.; Wei, H.Ch.; Battle, S.L.; Genge, J.W.; Laude, D.A.;
Harper, C.J.; Bau, R.; Steven, R.C.; Haw, J.F.; Munson, E. Synthesis of
linear acetylenic carbon:
the ''sp'' carbon allotrope. Science 1995, 267,
362-367.
[23] Wakabayashi, T.; Ong, A.L.; Strelnikov, D.; Kratschmer, W. Flashing carbon
on cold surface. J. Phys. Chem. B 2004, 108, 3686-3690.
[24] Livinova, V.A.; Cherkinskaya, K.T. Phase transformations in pyrographite
and glassy carbon on shock impack. Khim. Tverd. Topliva. 1976, 159-164.
[25] Kleiman, J.I.; Yamada, K.; Sawaoka, A.B.; Heimann, R.B. Dynamic pressure
synthesis of carbyne. In: Carbyne and Carbynoid Structures. Kluwer Academic
Publishers: Dordrecht/Boston/London, 1999; 173-187.
[26] Yamada, K.; Kunishige, H.; Sawaoka, A.B. Formation process of carbyne
produced by shock compression. Naturwiss 1991, 78, 450-465.
[27] Bundy, F.P.; Basset, W.A.; Weathers, M.S.; Hemlay, R.J..; Maoand, H.K.;
Goncharov, A.F. The pressure-temperature phase and transformation dia-
gram for carbon. Carbon 1996, 34(2), 141-153.
[28] Kavan, L. Electrochimical methods. In: Carbyne and Carbynoid Structures.
Kluwer Academic Publishers: Dordrecht/Boston/London, 1999; 189-214.
[29] Kijima, M.; Toyabe, T.; Shirakawa, H. Novel approach to synthesis of a
carbyne film by electrochemical reduction of hexachlorobuta-1,3-diene. Chem.
Commun. 1996, 2273-2274.
[30] Kavan, L. Electrochemical preparation of hydrogen free carbyne-like material.
Carbon 1988, 36, 801-808.
[31] Le Huu, T.; Schmitt, M.; Paulmier, D.; Mamalis, A.G.; Grabchenko, A.
Tribological properties of smooth diamond coatings for cutting tools. Wear
1999, 843-847.
[32] Paulmier, D; Le Huu, T; Zaidi, H. Growth and orientation of diamond crys-
tal thin films obtained by the combustion flame method. Surface Sci. 1997,
377-379, 866-870.
[33] Le Huu, T.; Zaidi, H.; Paulmier, D. About the growth of diamond crystals
obtained by the combustion flame method: used for coatings on large area
substrates. Thin Solid Films 1997, 308-309, 147-153.
[34] Kavan, L.; Kastner, J. Carbyne form of carbon: continuation of the story.
Carbon 1994, 32, 1533-1536.
[35] Nakamizo, M.; Kammereck, R.; Walker, P.L. Laser Raman studies on
carbons. Carbon 1974, 12, 259-267.
[36] Xu, Z; Butler, I.S; Mayr, A. The pressure tunning Raman and IR spectral
studies on the multinuclear metal carbyne complexes. Spectrochimica. Acta.
part A 2004, 995-1000.
[37] Ferrari, A.C; Robertson, J. Origin of the 1150 cm
1
Raman mode in nano-
crystalline diamond. Physical Rev. B 2001, 63, 121405-1-121405-4.
Search WWH ::
Custom Search