Cyanopolyynes: carbon chains formation in a carbon arc mimicking the formation of carbon chains in the circumstellar medium

Franco Cataldo

doi:10.1017/S1473550404002149

Abstract

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Monocyanopolyynes and dicyanopolyynes can be synthesized quite easily by the submerged electric arc. Monocyanopolyynes having the general formula H[bond](C[triple bond]C)n[bond]C[triple bond]N can be synthesized together with ordinary polyynes series H[bond](C[triple bond]C)n[bond]H by arcing graphite electrodes in acetonitrile. Dicyanopolyynes N[triple bond]C[bond](C[triple bond]C)n[bond]C[triple bond]N are produced almost pure by arcing graphite electrodes directly into liquid nitrogen. These molecules are present in the envelope of post-AGB (asymptotic giant branch), carbon-rich giant stars and also in dark molecular clouds. They are incorporated into comets and also into other primitive materials and may play a role in the prebiotic synthesis of more complex organic molecules having a biological significance. Furthermore, the cyanopolyynes are involved in the atmospheric chemistry of some bodies of the solar system. The discovery of the easy formation of these molecules under laboratory conditions may explain why these molecules are so ubiquitous in space and may also stimulate new ideas about the mechanism of their formation.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Cataldo, Franco 2005. A method for synthesizing polyynes in solution. Carbon, Vol. 43, Issue. 13, p. 2792.

Cataldo, Franco 2006. Polyynes and Cyanopolyynes: Their Synthesis with the Carbon Arc Gives the Same Abundances Occurring in Carbon-Rich Stars. Origins of Life and Evolution of Biospheres, Vol. 36, Issue. 5-6, p. 467.

Cataldo, Franco 2006. Carbon Subsulphide Polymer (C3S2) X Formation by Arcing Carbon disulphide with the Submerged Carbon Arc. Journal of Inorganic and Organometallic Polymers and Materials, Vol. 16, Issue. 1, p. 15.

Cataldo, Franco 2006. On the Action of Ozone on Polyynes and Monocyanopolyynes: Selective Ozonolysis of Polyynes. Fullerenes, Nanotubes and Carbon Nanostructures, Vol. 14, Issue. 1, p. 1.

Cataldo, Franco Ursini, Ornella and Angelini, Giancarlo 2007. Kinetics of polyynes formation with the submerged carbon arc. Journal of Electroanalytical Chemistry, Vol. 602, Issue. 1, p. 82.

Cataldo, Franco 2007. Polyynes Formation from Electric Arc in Liquid Argon in Presence of Methane. Fullerenes, Nanotubes and Carbon Nanostructures, Vol. 15, Issue. 4, p. 291.

Cataldo, Franco 2007. Storage Stability of Polyynes and Cyanopolyynes in Solution and the Effect of Ammonia or Hydrochloric Acid. Fullerenes, Nanotubes and Carbon Nanostructures, Vol. 15, Issue. 3, p. 155.

Cataldo, Franco 2008. The role of Raman spectroscopy in the research on sp‐hybridized carbon chains: carbynoid structures polyynes and metal polyynides. Journal of Raman Spectroscopy, Vol. 39, Issue. 2, p. 169.

Cataldo, Franco Strazzulla, Giovanni and Iglesias-Groth, Susana 2008. UV photolysis of polyynes at λ=254 nm and at λ>222 nm. International Journal of Astrobiology, Vol. 7, Issue. 2, p. 107.

Snow, Theodore P. Stepanovic, Momir Betts, Nicholas B. Eichelberger, Brian R. Martinez, Oscar and Bierbaum, Veronica M. 2009. Formation of Gas-Phase Glycine and Cyanoacetylene via Associative Detachment Reactions. Astrobiology, Vol. 9, Issue. 10, p. 1001.

Cataldo, Franco and Iglesias-Groth, Susana 2009. On the action of UV photons on hydrogenated fulleranes C60H36and C60D36. Monthly Notices of the Royal Astronomical Society, Vol. 400, Issue. 1, p. 291.

Srama, Ralf Stephan, Thomas Grün, Eberhard Pailer, Norbert Kearsley, Anton Graps, Amara Laufer, Rene Ehrenfreund, Pascale Altobelli, Nicolas Altwegg, Kathrin Auer, Siegfried Baggaley, Jack Burchell, Mark J. Carpenter, James Colangeli, Luigi Esposito, Francesca Green, Simon F. Henkel, Hartmut Horanyi, Mihaly Jäckel, Annette Kempf, Sascha McBride, Neil Moragas-Klostermeyer, Georg Krüger, Harald Palumbo, Pasquale Srowig, Andre Trieloff, Mario Tsou, Peter Sternovsky, Zoltan Zeile, Oliver and Röser, Hans-Peter 2009. Sample return of interstellar matter (SARIM). Experimental Astronomy, Vol. 23, Issue. 1, p. 303.

Cataldo, Franco Iglesias-Groth, Susana and Manchado, Arturo 2010. Fulleranes. Vol. 2, Issue. , p. 149.

Cataldo, Franco Ursini, Ornella Angelini, Giancarlo Tommasini, Matteo and Casari, Carlo 2010. Simple Synthesis of α,ω-Diarylpolyynes Part 1: Diphenylpolyynes. Journal of Macromolecular Science, Part A, Vol. 47, Issue. 8, p. 739.

Cataldo, Franco Iglesias-Groth, Susana and Manchado, Arturo 2011. Molar extinction coefficient of fullerenes and related hydrogenated derivatives “fulleranes”. Proceedings of the International Astronomical Union, Vol. 7, Issue. S283, p. 324.

Cataldo, Franco García-Hernández, D. Aníbal and Manchado, Arturo 2012. A Review on Carbon-rich Molecules in Space. Proceedings of the International Astronomical Union, Vol. 10, Issue. H16, p. 720.

Wakabayashi, Tomonari Saikawa, Mao Wada, Yoriko and Minematsu, Toshie 2012. Isotope scrambling in the formation of cyanopolyynes by laser ablation of carbon particles in liquid acetonitrile. Carbon, Vol. 50, Issue. 1, p. 47.

Kharlamov, Alexey Kharlamova, Ganna Bondarenko, Marina and Fomenko, Veniamin 2013. New Method of Generation of Carbon Molecules and Clusters. Open Journal of Synthesis Theory and Applications, Vol. 02, Issue. 01, p. 38.

Kharlamov, Oleksii Kharlamova, Ganna Bondarenko, Marina and Fomenko, Veneamin 2013. Advanced Sensors for Safety and Security. p. 329.

Kharlamov, A. I. Kharlamova, G. A. and Bondarenko, M. E. 2013. New low-temperature method for joint synthesis of C60 fullerene and new carbon molecules in the form of C3-C15 and quasi-fullerenes C48, C42, C40. Russian Journal of Applied Chemistry, Vol. 86, Issue. 8, p. 1174.

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Cyanopolyynes: carbon chains formation in a carbon arc mimicking the formation of carbon chains in the circumstellar medium

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Cyanopolyynes: carbon chains formation in a carbon arc mimicking the formation of carbon chains in the circumstellar medium

Abstract

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