Benchmark Studies on the Isomerization Enthalpies for Interstellar Molecular Species

Authors

  • E. E. Etim Department of Chemical Sciences, Federal University Wukari, Katsina-Ala Road, P.M.B. 1020 Wukari, Taraba State, Nigeria & Department of Chemistry, Indian Institute of Technology Bombay, Powai, Mumbai 400 076, India.

Keywords:

isomers, energy barrier, interstellar chemistry, astrochemistry

Abstract

With the well-established correlation between the relative stabilities of isomers and their interstellar abundances coupled with the prevalence of isomeric species among the interstellar molecular species, isomerization remains a plausible formation route for isomers in the interstellar medium. The present work reports an extensive investigation of the isomerization energies of 246 molecular species from 65 isomeric groups using the Gaussian-4 theory composite method with atoms ranging from 3 to 12. From the results, the high abundances of the most stable isomers coupled with the energy sources in interstellar medium drive the isomerization process even for barriers as high as 67.4 kcal/mol. Specifically, the cyanides and their corresponding isocyanides pairs appear to be effectively synthesized via this process. The following potential interstellar molecules; CNC, NCCN, c-C5H, methylene ketene, methyl Ketene, CH3SCH3, C5O, 1,1-ethanediol, propanoic acid, propan-2-ol, and propanol are identified and discussed. The study further reaffirms the importance of thermodynamics in interstellar formation processes on a larger scale and accounts for the known isomeric species. In all the isomeric groups, isomerization appears to be an effective route for the formation of the less stable isomers (which are probably less abundant) from the most stable ones that are perhaps more abundant.

Dimensions

M. Agúndez, C. Cabezas, B. Tercero, N. Marcelino, J. D. Gallego, P. de Vicente, J. Cernicharo, “Discovery of the propargyl radical (CH2CCH) in TMC-1: One of the most abundant radicals ever found and a key species for cyclization to benzene in cold dark clouds”, A&A 647 (2021) L10.

B. A. McGuire, “Census of Interstellar, Circumstellar, Extragalactic, Protoplanetary Disk, and Exoplanetary Molecules”. Astrophysical Journal Supplement Series 239 (2018) 17.

E. E. Etim, E. Arunan, “Rotational Spectroscopy and Interstellar Molecules”, Planex Newletter 5 (2015) 16.

E. E. Etim, E. Arunan, “Interstellar Isomeric Species: Energy, Stability and Abundance Relationship”, European Physical Journal Plus 131 (2016) 448. https://doi.org/10.1140/epjp/i2016-16448-0

E. E. Etim, E. Arunan, “Partition Function and Astronomical Observation of Interstellar Isomers: Is there a link?”, Advances in Space Research 59 (2017) 1161. http://dx.doi.org/10.1016/j.asr.2016.11.021

E. E. Etim, E. Arunan, “Accurate Rotational Constants for linear Interstellar Carbon Chains: Achieving Experimental Accuracy”, Astrophysics and Space Science 362 (2017) 4. DOI 10.1007/s10509-016-2979-6

H. J. Fraser, M. R. S. McCoustra., D. A. Williams, “The Molecular Universe”, A &G 43 (2002) 10.

A. G. G. M. Tielens, “The Molecular Universe”, Rev. Mod. Phys. 85 (2013) 1021.

M. A. Frerking, R. A. Linke, P. Thaddeus, “Interstellar Isothiocyanic Acid”, ApJ 234 (1979) 143.

R. A. Linke, M. A. Frerking, P. Thaddeus, “Interstellar Methyl Mercaptan”, ApJ 234 (1979) L139.

J. M. Hollis, P. R. Jewell, F. J. Lovas, A. Remijan, H. Møllendal, “Green Bank Telescope Detection of New Interstellar Aldehydes: Propenal and Propanal” ApJ 610 (2004) L21.

E. Oladimeji, E. E. Etim, M. Ojo, “The thermodynamic properties of interstellar isomers with 3 atoms”, Advances in Space Research 70 (2022) 3745.

F. J. Lovas, J. M. Hollis, A. J. Remijan, P. R. Jewell, “Detection of Ketenimine (CH 2 CNH) in Sagittarius B2(N) Hot Cores”, ApJ 645 (2006) 137.

M. Lattelais, F. Pauzat, Y. Ellinger, C. Ceccarelli, “Interstellar complex organic molecules and the minimum energy principle”, Astrophys J 696 (2009) L133.

L. A. Curtiss,P. C. Redfern, K. Raghavachari, “Gaussian-4 theory”, Jour. Chem. Phys 126 (2007) 084108.

L. A. Curtiss, K. Raghavachari, P. C. Redfern, V. Rassolov, J. A. Pople, “Gaussian-3 (G3) theory for molecules containing first and second-row atoms,” J. Chem. Phys. 109 (1998) 7764.

E. E. Etim, P. Gorai, A.Das, S. Charabati, E. Arunan, “Systematic Theoretical Study on the Interstellar Carbon Chain Molecules”, ApJ 832 (2016) 144. Doi:10.3847/0004-637X/832/2/144

E. E. Etim, P. Gorai, A. Das, E. Arunan, “Interstellar Protonated Molecular Species”, Advances in Space Science 60 (2017) 709.

E. E. Etim, P. Gorai, A. Das, S. K. Chakrabarti, E. Arunan, “Interstellar Hydrogen Bonding”, Advances in Space Research, 61 (2018) 2870. https://doi.org/10.1016/j.asr.2018.03.003

E. E. Etim, P. Gorai, R. Ghosh, A. Das, “Detectable Interstellar Anions: Examining the Key Factors”, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 230 (2020) 118011. https://doi.org/10.1016/j.saa.2019.118011

E. E. Etim, R. O. A. Adelagun, C. Andrew, E. Oladimeji, “Optimizing the Searches for Interstellar Heterocycles”, Advances in Space Research Journal 68 (2022) 3508. https://doi.org/10.1016/j.asr.2021.06.003

E. E. Etim, M. E. Khan, O. E. Godwin, G. O. Ogofotha, “Quantum Chemical Studies on C 4 H 4 N 2 Isomeric Molecular Species”, J. Nig. Soc. Phys. Sci. 3 (2022) 429.

M. E. Khan, E. E. Etim, V. J. Anyam, A. Abel ,I. G. Osigbemhe, C. T. Agber, “Computational studies on Emodin (C 15 H 10 O 5 ) from Methanol extract of Pteridium acquilinum leaves”, J. Nig. Soc. Phys. Sci. 3 (2021) 360.

B. Zuckerman, M. Morris, P. Palmer, B. E. Turner, “Observations of CS, HCN, U89.2, and U90.7 in NGC 2264”, ApJ 173 (1972) 125.

G. L. Blackman, R. D. Brown, P. D. Godfrey, H. I. Gunn, “The Microwave Spectrum of HNC: Identification of U90.7”, Nature 261 (1976) 395.

B. E. Turner, T. C. Steimle, L. Meerts, “Detection of Sodium Cyanide (NaCN) in IRC 10216”, ApJ. 426 (1994) 97.

K. Kawaguchi, E. Kagi, T. Hirano, S. Takano, S. Saito, “Laboratory Spectroscopy of MgNC - The First Radioastronomical Identification of Mg-Bearing Molecule”, ApJ 406 (1993) 39.

L. M. Ziurys, A. J. Apponi, M. Guélin, J. Cernicharo, “Detection of MgCN in IRC +10216: A New Metal-Bearing Free Radical”, ApJ 445 (1995) 47.

M. Guélin, J. Cernicharo, C. Kahane, J. Gomez-Gonzales, “A New Free Radical in IRC +10216” A&A 157 (1986) L17.

M. Guelin, R. Lucas, J. Cernicharo, “MgNC and the Carbon-Chain Radicals in IRC +10216”, A&A 280 (1993) 19.

L. M. Ziurys, C. Savage, J. L. Highberger, A. J. Apponi, M. Guelin, J.; Cernicharo, “More Metal Cyanide Species: Detection of AlNC (X1Sigma+) toward IRC +10216”, ApJ 564 (2002) 45.

M. Guélin, S. Muller, J. Cernicharo, M. McCarthy, P. Thaddeus, “Detection of the SiNC Radical in IRC+10216”, A&A 426 (2004) L49.

M. Guélin, S. Muller, J. Cernicharo, A. J. Apponi, M. McCarthy, C. A. Gottlieb, P. Thaddeus, “Astronomical Detection of the Free Radical SiCN”, A&A 369 (2000) L9.

L. E. Snyder, J. M. Hollis, B. L. Ulich, “Radio Detection of the Interstellar Formyl Radical”, ApJ 208 (1976) L91.

M. Agúndez, J. Cernicharo, M. Guélin, “Discovery of Phosphaethyne (HCP) in Space: Phosphorus Chemistry in Circumstellar Envelopes”, ApJ 662 (2007) L91.

J. K. Anderson, L. M. Ziurys, “Detection of CCN (X2?r) in IRC+10216: Constraining Carbon-chain Chemistry”, ApJ 795 (2014) L1.

D. T. Halfen, D. T. Clouthier, L. M. Ziurys, “Detection of the CCP Radical (X2?r) in IRC +10216: A New Interstellar Phosphorus-containing Species”, ApJ 677 (2008) L101.

D. Buhl, L. E. Snyder, The Detection of a MM-Wave Transition of Methlacetylene, in Molecules in the Galactic Environment (eds. M. A. Gordon and L. E. Snyder), Wiley-Interscience, New York, (1973).

R.C. Woods, C. S. Gudeman, R. L. Dickman, P. F. Goldsmith, G. R. Huguenin, W. M. Irvine, A. Hjalmar-son, L. A. Nyman, H. Olofsson, “The HCO+/HOC+ Abundance Ratio in Molecular Clouds”, ApJ 270 (1983) 583.

L. M. Ziurys, A. J. Apponi, M. Guélin, J. Cernicharo, “Detection of MgCN in IRC +10216: A New Metal-Bearing Free Radical”, ApJ 445 (1995) 47.

P. Thaddeus, M. Guélin, R. A. Linke, “Three New ”Nonterrestrial” Molecules”, ApJ 246 (1971) L41.

B. T. Soifer, R. C. Puetter, R. W. Russell, S. P. Willner, P. M. Harvey, F. C. Gillett, “The 4-8-micron spectrum of the infrared source W33A”, ApJ 232 (1979) 53.

M. Agúndez, N. Marcelino, J. Cernicharo, M. Tafafa, “Detection of interstellar HCS and its metastable isomer HSC: new pieces in the puzzle of sulfur chemistry”, A&A 611 (2018) L1.

A. M. Shaw, A. M. Astrochemistry: From Astronomy to Astrobiology. Wiley, 2006.

L. E. Snyder, D. Buhl, “Interstellar Isocyanic Acid”, ApJ. 177 (1972) 619.

S. Brunken, C. A. Gottlieb, M. C. McCarthy, P. Thaddeus, “Laboratory Detection of HOCN and Tentative Identification in Sgr B2”, ApJ 697 (2009) 880.

S. Brunken, A. Belloche, S. Martin, L. Verheyen, K. M. Menten, “Interstellar HOCN in the Galactic centre region”, A&A 516 (2010) A109.

N. Marcelino, J. Cernicharo, B. Tercero, E. Roueff, “Discovery of Fulminic Acid, HCNO in Dark Clouds” ApJ. 690 (2009) 27.

M. A. Frerking, R.A. Linke, P. Thaddeus, “Interstellar Isothiocyanic Acid”, ApJ 234 (1979) L143.

D. T. Halfen, L. M. Ziurys, S. Brünken, C. A. Gottlieb, M. C. McCarthy, P. Thaddeus, “Detection of a New Interstellar Molecule: Thiocyanic Acid HSCN. ApJ 702 (2009) 124.

P. Thaddeus, J. M. Vrtilek, C. A. Gottlieb, “Laboratory and Astronomical Identification of Cyclopropenylidene, C 3 H 2 ”. ApJ 299 (1985) L63.

S. Yamamoto, S. Saito, M. Ohishi, S. Suzuki, S. I. Ishikawa, N. Kaifu, A. Murakami, “Laboratory and Astronomical Detection of the Cyclic C 3 H Radical”, ApJ 322 (1987) L55.

M. Guélin, P. Thaddeus, “Tentative Detection of the C 3 N Radical”, ApJ 212 (1977) L81.

P. Friberg, A. Hjalmarson, W. M. Irvine, M. Guélin, Interstellar C 3 N - Detection in Taurus Dark Clouds. ApJ 241 (1980) L99.

M. Guélin, J. Cernicharo, “Astronomical Detection of HCCN Radical- Toward a New Family of Carbon-Chain Molecules?” A&A, 244 (1991) L21.

H. E. Matthews, W. M. Irvine, P. Friberg, R. D. Brown, P. D. Godfrey, “A New Interstellar Molecule-Tricarbon Monoxide”, Nature 310 (1984) 125

R. D. Brown, P. D. Godfrey, D. M. Cragg, D. H. N. Rice, W. M. Irvine, P. Friberg, H. Suzuki, M. Ohishi, N. Kaifu, M. Morimoto, “Tricarbon Monoxide in TMC-1”, ApJ 297 (1985) 302.

N. Kaifu, H. Suzuki, M. Ohishi, T. Miyaji, S. Ishikawa, T. Kasuga, M. Morimoto, “Detection of intense unidentified lines in TMC-1”, ApJ 317 (1987) L111.

S. Yamamoto, S. Saito, K. Kawaguchi, N. Kaifu, H. Suzuki, “Laboratory Detection of a New Carbon-Chain Molecule C3S and Its Astronomical Identification”, ApJ 317 (1987): L119.

J. Cernicharo, C. Kahane, M. Guélin, H. Hein,”Sulfur in IRC +10216”, A&A 181 (1987) L9.

A. J. Apponi, M. C. McCarthy, C. A. Gottlieb, P. Thaddeus, “Astronomical Detection of Rhomboidal SIC3”, ApJ 516 (1999) L103.

M. Agúndez, J. Cernicharo, M. Guélin, “New molecules in IRC +10216: confirmation of C 5 S and tentative identification of MgCCH, NCCP, and SiH 3 CN” A&A 570 (2014) A45.

M. Agúndez, N. Marcelino, J. Cernicharo, “Discovery of Interstellar Isocyanogen (CNCN): Further Evidence that Dicyanopolyynes Are Abundant in Space”, ApJL 861 (2018) K22.

M. Agúndez, J. Cernicharo, M. Guélin, “Discovery of interstellar ketenyl (HCCO), a surprisingly abundant radical”, A&A 577 (2015) L5.

B. E. Turner, Detection of Interstellar Cyanoacetylene. ApJ, 163 (1971) 35.

K. Kawaguchi, M. Ohishi, S. I. Ishikawa, N. Kaifu, “Detection of Isocyanoacetylene HCCNC in TMC-1”, ApJ 386 (1992) 51.

K. Kawaguchi, S. Takano, M. Ohishi, S. I. Ishikawa, K. Miyazawa, N. Kaifu, K. Yamashita, S. Yamamoto, S. Saito, Y. Ohshima, Y. Endo, “Detection of HNCCC in TMC-1”, ApJ 396 (1992) 49.

B. E. Turner, “Microwave Detection of Interstellar Ketene”, ApJ 213 (1977) L75.

P. Thaddeus, C. A. Gottlieb, A. Hjalmarson, L. E. B. Johansson, W. M. Irvine, P. Friberg, R. A. Linke, “Astronomical Identification of the C3H Radical”, ApJ 294 (1985) L49.

J. Cernicharo, C. A. Gottlieb, M. Guélin, T. C. Killian, P. Thaddeus, J. M. Vrtilek, “Astronomical Detection of H2CCCC”, ApJ 368 (1991) L43.

B. E. Turner, H. S. Liszt, N. Kaifu, A. G. Kisliakov, “Microwave Detection of Interstellar Cyanamide”, ApJ 201 (1975) 149.

W. M. Irvine, P. Friberg, A. Hjalmarson, S. Ishikawa, N. Kaifu, K. Kawaguchi, S. C. Madden, H. E. Matthews, M. Ohishi, S. Saito, H. Suzuki, P. Thaddeus, B. E. Turner, S. Yamamoto, L. M. Ziurys, “Identification of the Interstellar Cyanomethyl Radical (CH 2 CN) in the Molecular Clouds TMC-1 and Sagittarius B2. ApJ 334 (1988) 107.

A. J. Remijan, J. M. Hollis, F. J. Lovas, W. D. Stork, P. R. Jewell, D. S. Meier, “Detection of Interstellar Cyanoformaldehyde (CNCHO)”, ApJ 675 (2008) L85.

M. Guélin, N. Neininger, J. Cernicharo, “Astronomical Detection of the Cyanobutadiynyl Radical C5N”, A&A 355 (1998) L1.

J. Cernicharo, C. Kahane, J. Gómez-González, M. Guélin, “Tentative Detection of the C5H Radical”, A&A 164 (1986) L1.

J. Cernicharo, C. Kahane, J. Gómez-González, M. Guélin, “Detection of the 2Pi3/2 state of C5H”, A&A 167 (1986) L5.

J. Cernicharo, M. Guelin, C. M. Walmsley, , “Detection of the Hyperfine Structure of the C5H Radical”, A&A, 172 (1987) L5.

P. M. Solomon, K. B. Jefferts, A. A. Penzias, R. W. Wilson, “Detection of Millimeter Emission Lines from Interstellar Methyl Cyanide”, ApJ. 168 (1971) 107-110.

J. Cernicharo, C. Kahane, M. Guélin, Gomez-Gonzalez, J. Tentative Detection of CH 3 NC towards Sgr B2. A&A 189 (1988) 1.

F. J. Lovas, A. J. Remijan, J. M. Hollis, P. R. Jewell, L. E. Snyder, “Hyperfine Structure Identification of Interstellar Cyanoallene toward TMC-1”, ApJ 637 (2006) L37.

J. Cernicharo, M. Guélin, J. R. Pardo, “Detection of the Linear Radical HC4N in IRC +10216”, ApJ 615 (2004) 145.

W. M. Irvine, R. D. Brown, D. M. Craig, P. Friberg, P. D. Godfrey, N. Kaifu, H. E. Matthews, M. Ohishi, H. Suzuki, H. Takeo, “A New Interstellar Polyatomic Molecule: Detection of Propynal in the Cold Cloud TMC-1”, ApJ 335 (1988) 89.

J. M. Hollis, F. J. Lovas, J. R. Anthony,A. J. Remijan, P. R. Jewell, V. V. Ilyushin, I. Kleiner, “Detection of Acetamide (CH 3 CONH 2 ): The Largest Interstellar Molecule with a Peptide Bond”, ApJ. 643 (2006) 25.

R. H. Rubin, G. W. Swenson, R. C. Solomonm, Jr, H. L. Flygare, “Microwave Detection of Interstellar Formamide”, ApJ 169 (1971) 39.

M. B. Bell, L. W. Avery, P. A. Feldman, “C3S and C 5 S in IRC +10216”, ApJ 417 (1993) L37.

N. Fourikis, M. W. Sinclair, B. J. Robinson, P. D. Godfrey, R. D. Brown, “Rotational Transition in Interstellar Acetaldehyde”, AuJPh 27 (1974) 425.

W. Gilmore, M. Morris, P. Palmer, D. R. Johnson, F. J. Lovas, B. E. Turner, B. Zuckerman, “Observation of the 6(16)-5(15) Transitions of acetaldehyde in Sagittarius B2”, ApJ 204 (1976) 43.

B. E. Turner, A. J. Apponi, “Microwave Detection of Interstellar Vinyl Alcohol, CH 2 CHOH”, ApJ 561 (2001) 207.

J. E. Dickens, W. M. Irvine, M. Ohishi, M. Ikeda, S. Ishikawa, A. Nummelin, A. Hjalmarson, “Detection of Interstellar Ethylene Oxide (c-C2H4O)”. ApJ 489 (1997) 753.

F. F. Gardner, G. Winnewisser, “The Detection of Interstellar Vinyl Cyanide (Acrylonitrile)”, ApJ 195 (1975) L127.

D. Buhl, L. E. Snyder, “Unidentified Interstellar Microwave Line”, Nature 228 (1970) 267.

D. T. Halfen, V. V. Ilyushin, L. M. Ziurys, “Interstellar Detection of Methyl Isocyanate CH 3 NCO in Sgr B2(N): A Link from Molecular Clouds to Comets”. ApJ 812 (2015) L5.

J.Cernicharo, Z. Kisiel, B. Tercero, L. Kolesniková, I. R. Medvedev, A. López, S. Fortman, M. Winnewisser, F. de Lucia, J. L. Alonso, J. C. Guillemin, “A rigorous detection of interstellar CH3NCO: An important missing species in astrochemical networks”, A&A 587 (2016) L4.

A. Nummelin, P. Bergman, A. Hjalmarson, P. Friberg, W. M. Irvine, T. J. Millar, M. Ohishi, S. Saito, “Abundances of ethylene oxide and acetaldehyde in hot molecular cloud cores”, A&A 337 (1998) 275.

A. Nummelin, P. Bergman, A. Hjalmarson, P. Friberg, W. M. Irvine, T. J. Millar, M. Ohishi, S. Saito, “Abundances of ethylene oxide and acetaldehyde in hot molecular cloud cores”, A&A 337 (1998) 275.

M. Ikeda, M. Ohishi, J. E. Dickens, P. Bergman, A. Hjalmarson, W. M. Irvine, “Survey Observations of c-C2H4O and CH3CHO toward Massive Star-forming Regions”, ApJ 560 (2001) 792.

N. W. Broten, J. W. MacLeod, L. W. Avery, W. M. Irvine, B. Höglund, P. Friberg, P. Hjalmarson, “The Detection of Interstellar Methylcyanoacetylene”, ApJ 276 (1984) 25.

F. J. Lovas, J. M. Hollis, A. J. Remijan, P. R. Jewell, “Detection of Ketenimine (CH 2 CNH) in Sagittarius B2(N) Hot Cores”, ApJ 645 (2006) 137.

J. N. Chin, R. I. Kaiser, C. Lemme, C. Henkel, “Detection of Interstellar Cyanoallene and its Implications for Astrochemistry”, AIP Conf. Proc. 855 (2006) 149.

A. Belloche, K. M. C. Menten, C. Comito, H. S. P. Müller, P. Schilke, J. Ott, S. Thorwirth, C.Hieret, “Detection of amino acetonitrile in Sgr B2(N)”, A&A. 482 (2008) 179.

M. D. Mehringer, L. E. Snyder, Y. Miao, F. Lovas, “Detection and Confirmation of Interstellar Acetic Acid” ApJ 480 (1997) L71.

E. Churchwell, G. Winnewisser, “Observations of Methyl Formate in the Galactic Center”, A&A. 45 (1975) 229.

R. D. Brown, J. G. Crofts, P. D. Godfrey, F. F. Gardner, B. J. Robinson, J. B. Whiteoak, “Discovery of Interstellar Methyl Formate”, ApJ 197 (1975) L29.

J. M. Hollis, F. J. Lovas, P. R. Jewell, “Interstellar Glycolaldehyde: The First Sugar”, ApJ 540 (2000) 107.

J. M. Hollis, P. R. Jewell, F. J. Lovas, A. Remijan, A. Møllendal, “Green Bank Telescope Detection of New Interstellar Aldehydes: Propenal and Propanal”, ApJ 610 (2004) 21.

W. D. Langer, T. Velusamy, T. B. H. Kuiper, R. Peng, M. C. McCarthy, M. J. Travers, A. Kovács, C. A. Gottlieb, P. Thaddeus, “First Astronomical Detection of the Cumulene Carbon Chain molecule H2C6 in TMC-1”, ApJ 480 (1997) 63.

J. Cernicharo, A. M. Heras, A. G. G. M. Tielens, J. R. Pardo, F. Herpin, M. Guélin, L. B. F. M. Waters, “Infrared Space Observatory’s Discovery of C4H2 , C6 H2 , and Benzene in CRL 618”, ApJ, 546 (2001) L123.

Loomis, et al., “The Detection of Interstellar Ethanimine (CH 3 CHNH) from Observations taken during the GBT PRIMOS Survey”, ApJL 765 (2013) L9.

A. J. Remijan, L. E. Snyder, B. A. McGuire, H. L. Kuo, L. W. Looney, D. N. Friedel, G. Y. Golubiatnikov, F. J. Lovas, V. V. Ilyushin, E. A. Alekseev, S. F. Dyubko, B. J. McCall, J. M. Hollis, “Observational Results of a Multi-telescope Campaign in Search of Interstellar Urea (NH 2 ) 2 CO”, ApJ 783 (2014) 77.

B. Zuckerman, B. E. Turner, D. R. Johnson, F. O. Clark, F. J. Lovas, N. Fourikis, P. Palmer, M. Morris, A. E. Lilley, J. A. Ball, C. A. Gottlieb, H. Penfield, “Detection of Interstellar trans -Ethyl Alcohol”, ApJ. 196 (1975) 99.

J. C. Pearson, K. V. L. N. Sastry, E. Herbst, F. C. De Lucia, “Gauche Ethyl Alcohol: Laboratory Assignments and Interstellar Identification”, ApJ 480 (1997) 420.

L. E. Snyder, D. Buhl, P. R. Schwartz, F. O. Clark, D. R. Johnson, F. J. Lovas, P. T. Giguere, “Radio Detection of Interstellar Dimethyl Ether”, ApJ. 191 (1974) 79.

L. Kolesniková, B. Tercero, J. Cernicharo, J. L. Alonso, A. M. Daly, B. P. Gordon, S. T. Shipman, “Spectroscopic Characterization and Detection of Ethyl Mercaptan in Orion”, ApJ 784 (2014) L7.

J. M. Hollis, A. J. Remijan, P. R. Jewell, F. J. Lovas, “Cyclopropenone (c-H2C3O): A New Interstellar Ring Molecule”, ApJ 642 (2006) 933

D. R. Johnson, F. J. Lovas, C. A. Gottlieb, E. W. Gottlieb, M. M. Litvak, M. Guélin, P. Thaddeus, “Detection of Interstellar Ethyl Cyanide”, ApJ. 218 (1977) 370.

C. M. Walmsley, P.R. Jewell, L. E. Snyder, G. Winnewisser, “Detection of Interstellar Methyldiacetylene (CH3C4H) in the Dark Dust Cloud TMC 1”, A&A 134 (1984) L11.

N. Marcelino, J. Cernicharo, M. Agúndez, E. Roueff, M. Gerin, J. Mart??n-Pintado, R. Mauersberger, C. Thum, “Discovery of Interstellar Propylene (CH2CHCH3 ): Missing Links in Interstellar Gas-Phase Chemistry”, . ApJ 665 (2007) L127.

H. W. Kroto, C. Kirby, D. R. M. Walton, L. W. Avery, N. W. Broten, J. M. MacLeod, T. Oka, “The Detection of Cyanohexatriyne in Heiles’s Cloud 2”, ApJ 219 (1978) L133.

L. T. Little, G. H. MacDonald, P. W. Riley, D. N. Matheson, “Observations of Interstellar HC 5 N and HC7N in Dark Dust Clouds”, MNRAS 183 (1978) 45P.

G. Winnewisser, C. M. Walmsley, “The Detection of HC5N and HC7N in IRC +10216”, A&A 70(1978) L37.

P. Botschwina, A. Heyl, “The isocyanopolyynes HC4NC and HC6NC: Microwave spectra and ab initio calculations”, J. Chem. Phys., 109 (1998) 3108.

G. L. Blackman, R. D. Brown, P. D. Godfrey, H. I. Gunn, “The Microwave Spectrum of HNC: Identification of U90.7.”,Nature 261 (1976) 395.

J. M. Hollis, P. R. Jewell, F. J. Lovas, A. Remijan, H. Møllendal, “Green Bank Telescope Detection of New Interstellar Aldehydes: Propenal and Propanal” ApJ 610 (2004)L21.

J. M. Hollis, F. J. Lovas, P. R. Jewell, L. H. Coudert, “Interstellar Antifreeze: Ethylene Glycol” ApJ 571 (2002) 59.

F. Combes, M. Gerin, A. Wooten, G. Wlodarczak, F. Clausset, P. I. Encrenaz, “Acetone in Interstellar Space”. A&A. 180 (1987) L13.

L. E. Snyder, F. J. Lovas, D. M. Mehnringer, N. Y. Miao, Y. J. Kuan. J. M. Hollis, P. R. Jewell, “Confirmation of Interstellar Acetone”, ApJ 578 (2002) 245.

L. E. Snyder, J. M. Hollis, P. R. Jewell, F. J. Lovas, A. Remijan, “Confirmation of Interstellar Methyl-cyanodiacetylene (CH3C5N)”, ApJ 647 (2006) 412.

A. Belloche, R. T. Garrod, H. S. P. Müller, K. M. Menten, C. Comito, P. Schilke, “Increased Complexity in Interstellar Chemistry: Detection and Chemical Modelling of Ethyl Formate and n-Propyl Cyanide in Sagittarius B2(N)”, A&A. 499 (2009) 215

B. Tercero, I. Kleiner, J. Cernicharo, H. V. L. Nguyen, A. López, G. M. Muñoz-Caro, “Discovery of Methyl Acetate and Gauche EthylFormate in Orion”, ApJL. 770 (2013) 13.

N. W. Broten, T. Oka, L. W. Avery, J. M. MacLeod, H. W. Kroto, “The Detection of HC 9 N in Interstellar Space”, ApJ 223 (1978) L105.

A. J. Remijan, J. M. Hollis, L. E. Snyder, P. R. Jewell, F. J. Lovas, “Methyltriacetylene (CH 3 C 6 H) toward TMC-1: The Largest Detected Symmetric Top”, ApJ 643 (2006) L37.

Y. Zhou, D. H. Quan, X. Zhang, S. L. Qin, “Detection of hydroxyacetone in protostar IRAS 16293-2422 B”, Res Astron Astrophys 20 (2020) 12.

J. Cernicharo, C. Agúndez, C. Cabezas, B. Tercero, N. Marcelino, J. R. Pardo, P. de Vicente, “Pure hydrocarbon cycles in TMC-1: Discovery of ethynyl cyclopropenylidene, cyclopentadiene, and indene”, A&A 649 (2021) L15.

V. M. Rivilla et al., “Discovery in space of ethanolamine, the simplest phospholipid head group”, Proc Nat Acad Sci 118 (2021) e2101314118. https://doi.org/10.1073/pnas.2101314118

M. C. McCarthy, K. L. K. Lee, R. A. Loomis, A. M. Burkhardt, C. N. Shingledecker, S. B. Charnley, M. A. Cordiner, E. Herbst, S. Kalenskii, E. R. Willis, C. Xue, A. J. Remijan, B. A. McGuire, “Interstellar detection of the highly polar five-membered ring cyanocyclopentadiene”, Nature Astron 5 (2021)176.

K. L. K. Lee, P. B. Changala, R. A. Loomis, A. B. Burkhardt, C. Xue, M. A. Cordiner, S. B. Charnley, M. C. McCarthy, B. A. McGuire, “Interstellar Detection of 2-cyanocyclopentadiene, C 5 H 5 CN, a Second Five-membered Ring toward”, ApJL 910 (2021) L2.

J. Cernicharo, A. M. Heras, A. G. G. M. Tielens, J. R. Pardo, F. Herpin, M. Guélin, L. B. F. M. Waters, “Infrared Space Observatory’s Discovery of C4H2 , C6H2 , and Benzene in CRL 618”, ApJ, 546 (2001) L123.

A. Belloche, R. T. Garrod, H. S. P. Müller, K. M. Menten, C. Comito, P. Schilke, “Increased Complexity in Interstellar Chemistry: Detection and Chemical Modelling of Ethyl Formate and n-Propyl Cyanide in Sagittarius B2(N)”, A&A. 499 (2009) 215

G. W. Fuchs, U. Fuchs, T. F. Giesen, F. Wyrowski, “Trans-ethyl methyl ether in space: A new look at a complex molecule in selected hot core regions”, A&A 444 (2005) 521.

A. Belloche, R. T. Garrod, H. S. P. Müller, K. M. Menten, “Detection of a branched alkyl molecule in the interstellar medium: iso-propyl cyanide”, Science 345 (2014) 1584.

J. K. Anderson, L. M. Ziurys, “Detection of CCN (X2?r) in IRC+10216: Constraining Carbon-chain Chemistry”, ApJ 795 (2014) L1.

M. Guélin, J. Cernicharo, C. Kahane, J. Gomez-Gonzales, “A New Free Radical in IRC +10216” A&A 157 (1986) L17.

M. Guelin, R. Lucas, J. Cernicharo, “MgNC and the Carbon-Chain Radicals in IRC +10216”, A&A 280 (1993) 19.

P. P. Tennekes, J. Harju, M. Juvela, L. V. Tóth, “HCN and HNC mapping of the protostellar core Chamaeleon-MMS1”, A&A 456 (2006) 1037.

W. M. Irvine, F. P. Schloerb, “Cyanide and Isocyanide Abundances in the Cold, Dark Cloud TMC-1”, ApJ 282 (1984) 516.

T. Ogata, Y. Ohshima, Y., Endo, “Rotational Spectra and Structures of Carbon Monoxides C5O, C7O and C9O”, J. Am. Chem. Soc 117 (1995) 3593.

Published

2023-04-18

How to Cite

Benchmark Studies on the Isomerization Enthalpies for Interstellar Molecular Species. (2023). Journal of the Nigerian Society of Physical Sciences, 5(2), 527. https://doi.org/10.46481/jnsps.2023.527

Issue

Section

Original Research

How to Cite

Benchmark Studies on the Isomerization Enthalpies for Interstellar Molecular Species. (2023). Journal of the Nigerian Society of Physical Sciences, 5(2), 527. https://doi.org/10.46481/jnsps.2023.527