Monocyanopolyynes from a carbon arc in ammonia: about the relative abundance of polyynes series formed in a carbon arc and those detected in the circumstellar shells of AGB stars

Franco Cataldo

doi:10.1017/S1473550406002837

Abstract

Monocyanopolyynes are formed by arcing graphite electrodes in ammonia. This work completes the parallelism existing between the polyynes formed by laser ablation experiments of graphite targets and those produced from the submerged electric arc. In both cases the same products are obtained. The products consist of hydrogen-terminated polyynes if water is present, monocyanopolyynes (mixed with hydrogen-terminated polyynes) if the carbon arc is sparked in acetonitrile or ammonia and dicyanopolyynes if the arc is struck in liquid nitrogen. The mechanism of formation of polyynes in the submerged carbon arc involves essentially neutral species; similar species and pathways may also occur in the circumstellar environment where polyynes have been detected by radioastronomy. It is shown that the relative abundances of the polyynes formed in the submerged carbon arc or in a carbon arc in vacuum decrease by a factor between three and five as the chain length increases by a C2 unit. Exactly the same trend has been observed by radioastronomy both for polyynes and cyanopolyynes in the circumstellar environment around red giants and asymptotic giant branch (AGB) stars. This fact may be a simple coincidence or may suggest that the mechanism of formation of the polyynes in the carbon arc is the same as that occurring in the surroundings of carbon-rich stars.

Crossref Citations

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

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 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. 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 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 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.

Yang, J. Qi, J.Y. Chen, M.D. Zhang, Q.E. and Au, C.T. 2008. Parity alternation of linear ground-state hydrogenated cationic carbon clusters HCn+ (n=1–10). International Journal of Mass Spectrometry, Vol. 272, Issue. 2-3, p. 165.

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.

Yang, J. Qi, J.Y. Liu, J. Chen, M.D. Zhang, Q.E. and Au, C.T. 2008. Parity alternation of linear ground-state hydrogenated cationic carbon clusters HCnSi+ (n=1–10). International Journal of Mass Spectrometry, Vol. 272, Issue. 2-3, p. 172.

Qi, J.Y. Chen, M.D. Wu, W. Zhang, Q.E. and Au, C.T. 2009. Parity alternation of interstellar molecules cyanopolyynes HCnN (n=1–17). Chemical Physics, Vol. 364, Issue. 1-3, p. 31.

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.

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 2010. Fulleranes. Vol. 2, Issue. , p. 149.

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.

Robinson, David 2013. Splitting multiple bonds: A comparison of methodologies on the accuracy of bond dissociation energies. Journal of Computational Chemistry, Vol. 34, Issue. 30, p. 2625.

Qi, Jiayuan and Zhu, Huanhuan 2014. Theoretical study on the structures and properties of hydrogen-doped cationic carbon clusters (n=3–10). Chemical Physics, Vol. 431-432, Issue. , p. 20.

Turowski, Michał Crépin, Claudine Douin, Stéphane and Kołos, Robert 2015. Formation and Spectroscopy of Dicyanotriacetylene (NC8N) in Solid Kr. The Journal of Physical Chemistry A, Vol. 119, Issue. 11, p. 2701.

Cataldo, F Garcia-Hernandez, D A Manchado, A and Kwok, S 2016. Laboratory study of carbonaceous dust and molecules of astrochemical interest. Journal of Physics: Conference Series, Vol. 728, Issue. , p. 062002.

Szczepaniak, Urszula Kołos, Robert Gronowski, Marcin Chevalier, Michèle Guillemin, Jean-Claude Turowski, Michał Custer, Thomas and Crépin, Claudine 2017. Cryogenic Photochemical Synthesis and Electronic Spectroscopy of Cyanotetracetylene. The Journal of Physical Chemistry A, Vol. 121, Issue. 39, p. 7374.

Cataldo, Franco García-Hernández, D. Anibal and Manchado, Arturo 2017. Submerged carbon arc in liquid benzene: GC-MS analysis of the products. Fullerenes, Nanotubes and Carbon Nanostructures, Vol. 25, Issue. 10, p. 576.

Download full list

Article contents

Monocyanopolyynes from a carbon arc in ammonia: about the relative abundance of polyynes series formed in a carbon arc and those detected in the circumstellar shells of AGB stars

Abstract

Keywords

Access options

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

Article contents

Monocyanopolyynes from a carbon arc in ammonia: about the relative abundance of polyynes series formed in a carbon arc and those detected in the circumstellar shells of AGB stars

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests