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(Top) 1 Structure 2 Laboratory studies 3 Formation and destruction 4 Astronomical detections 4.1 Initial interstellar detection 4.2 Subsequent interstellar detections 4.3 Solar System bodies 5 References

Protonated hydrogen cyanide

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Protonated hydrogen cyanide
Names


IUPAC names Methylidyneammonium,^[2] Methylidyneazanium^[1]
Systematic IUPAC name Methylidyneammonium^[2]
Other names Methanimine, iminomethylcation; 1-azoniaethyne^[1]; iminomethylium
Identifiers
CAS Number	38263-97-7^N^[3]
3D model (JSmol)	linear form (HC≡N⁺H): Interactive image HC⁺=NH: Interactive image CNH⁺ ₂: Interactive image H₂CN⁺: Interactive image cis-HCNH⁺: Interactive image trans-HCNH⁺: Interactive image
ChemSpider	10446358 linear form (HC≡N⁺H) 18948137HC⁺=NH
PubChem CID	22952220 linear form (HC≡N⁺H) 274441977
InChI InChI=1S/CHN/c1-2/h1H/p+1^[2] Key: LELOWRISYMNNSU-UHFFFAOYSA-O^[2] linear form (HC≡N⁺H): InChI=1S/CHN/c1-2/h1H/p+1^[1] Key: LELOWRISYMNNSU-UHFFFAOYSA-O^[1] HC⁺=NH^[4]: InChI=1S/CH3N/c1-2/h2H,1H2/q+1 Key: WFXDWMNZLVWETL-UHFFFAOYSA-N
SMILES linear form (HC≡N⁺H): C#[NH+] HC⁺=NH: [CH+]=N CNH⁺ ₂: [CH0]=[NH2+] H₂CN⁺: C=[NH0+] cis-HCNH⁺: [H]/[C]=[N+]\[H] trans-HCNH⁺: [H]/[C]=[N+]/[H]
Properties
Chemical formula	CH₂N⁺¹
Molar mass	28.033 g·mol⁻¹
Conjugate base	Hydroisocyanic acid
Structure
Point group	C_∞v (linear form (HC≡N⁺H))
Molecular shape	linear: HC≡N⁺H
Hazards
Flash point	−21.3 to −43.7 °C (−6.3 to −46.7 °F; 251.8 to 229.5 K)^[2]
Related compounds
Related isoelectronic	ethyne
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Infobox references

HCNH⁺, also known as protonated hydrogen cyanide, is a molecular ion of astrophysical interest. It also exists in the condensed state when formed by superacids.

Structure[edit]

In the ground state, HC+NH is a simple linear molecule, whereas its excited triplet state is expected to have cis and trans isomeric forms. The higher-energy structural isomersH₂CN⁺ and C+NH₂ have also been studied theoretically.^[5]

Laboratory studies[edit]

As a relatively simple molecular ion, HCNH⁺ has been extensively studied in the laboratory. The very first spectrum taken at any wavelength focused on the ν₂ (C−H stretch) ro-vibrational band in the infrared. ^[6] Soon afterward, the same authors reported on their investigation of the ν₁ (N−H stretch) band. ^[7] Following these initial studies, several groups published manuscripts on the various ro-vibrational spectra of HCNH⁺, including studies of the ν₃ band (C≡N stretch),^[8] the ν₄ band (H−C≡N bend),^[9] and the ν₅ band (H−N≡C bend) .^[10]

While all of these studies focused on ro-vibrational spectra in the infrared, it was not until 1998 that technology advanced far enough for an investigation of the pure rotational spectrum of HCNH⁺ in the microwave region to take place. At that time, microwave spectra for HCNH⁺ and its isotopomers HCND⁺ and DCND⁺ were published.^[11] Recently, the pure rotational spectrum of HCNH⁺ was measured again in order to more precisely determine the molecular rotational constants B and D.^[12]

Formation and destruction[edit]

According to the database at astrochemistry.net, the most advanced chemical models of HCNH⁺ include 71 total formation reactions and 21 total destruction reactions. Of these, however, only a handful dominate the overall formation and destruction.^[13] In the case of formation, the 7 dominant reactions are:

H⁺
₃ + HCN → HCNH⁺ + H₂

H⁺
₃ + HNC → HCNH⁺ + H₂

HCO⁺ + HCN → HCNH⁺ + CO

HCO⁺ + HNC → HCNH⁺ + CO

H₃O⁺ + HCN → HCNH⁺ + H₂O

H₃O⁺ + HNC → HCNH⁺ + H₂O

C⁺ + NH₃ → HCNH⁺ + H

Astronomical detections[edit]

Initial interstellar detection[edit]

HCNH⁺ was first detected in interstellar space in 1986 toward the dense cloud Sgr B2 using the NRAO 12 m dish and the Texas Millimeter Wave Observatory.^[14] These observations utilized the J = 1–0, 2–1, and 3–2 pure rotational transitions at 74, 148, and 222 GHz, respectively.

Subsequent interstellar detections[edit]

Since the initial detection, HCNH⁺ has also been observed in TMC-1^[15] ^[16] as well as DR 21(OH)^[15] .^[17] The initial detection toward Sgr B2 has also been confirmed.^[15]^[18] All 3 of these sources are dense molecular clouds, and to date HCNH⁺ has not been detected in diffuse interstellar material.

Solar System bodies[edit]

While not directly detected via spectroscopy, the existence of HCNH⁺ has been inferred to exist in the atmosphere of Saturn's largest moon, Titan,^[19] based on data from the Ion and Neutral Mass Spectrometer (INMS) instrument aboard the Cassini space probe. Models of Titan's atmosphere had predicted that HCNH⁺ would be the dominant ion present, and a strong peak in the mass spectrum at m/z = 28 seems to support this theory.

In 1997, observations were made of the long-period comet Hale–Bopp in an attempt to find HCNH⁺, ^[20] but it was not detected. However, the upper limit derived from these observations, along with the detections of HCN, HNC, and CN, is important in understanding the chemistry associated with comets.

References[edit]

^ ^a ^b ^c ^d "Methanimine". PubChem. Retrieved 27 January 2019.

^ ^a ^b ^c ^d ^e "Methylidyneammonium | CH₂N". ChemSpider. Retrieved 27 January 2019.

^ "HCNH+". webbook.nist.gov.

^ "methanimine | CH₂N". ChemSpider. Retrieved 27 January 2019.

^ Allen, T. L.; Goddard, J. D.; Schaefer, H. F. III (1980). "A possible role for triplet H₂CN⁺ isomers in the formation of HCN and HNC in interstellar clouds". Journal of Chemical Physics. 73 (7): 3255–3263. Bibcode:1980JChPh..73.3255A. doi:10.1063/1.440520. S2CID 95029005.

^ Altman RS, Crofton MW, Oka T (1984). "Observation of the infrared ν₂ band (CH stretch) of protonated hydrogen cyanide, HCNH⁺". Journal of Chemical Physics. 80 (8): 3911–3912. Bibcode:1984JChPh..80.3911A. doi:10.1063/1.447173.

^ Altman RS, Crofton MW, Oka T (1984). "High resolution infrared spectroscopy of the ν₁ (NH stretch) and ν₂ (CH stretch) bands of HCNH⁺". Journal of Chemical Physics. 81 (10): 4255–4258. Bibcode:1984JChPh..81.4255A. doi:10.1063/1.447433.

^ Kajita M, Kawaguchi K, Hirota E (1988). "Diode laser spectroscopy of the ν₃ (CN stretch) band of HCNH⁺". Journal of Molecular Spectroscopy. 127 (1): 275–276. Bibcode:1988JMoSp.127..275K. doi:10.1016/0022-2852(88)90026-4.

^ Tanaka K, Kawaguchi K, Hirota E (1986). "Diode laser spectroscopy of the ν₄ (HCN bend) band of HCNH⁺". Journal of Molecular Spectroscopy. 117 (2): 408–415. Bibcode:1986JMoSp.117..408T. doi:10.1016/0022-2852(86)90164-5.

^ Ho WC, Blom CE, Liu DJ, Oka T (1987). "The infrared ν₅ band (HNC bend) of protonated hydrogen cyanide, HCNH⁺". Journal of Molecular Spectroscopy. 123 (1): 251–253. Bibcode:1987JMoSp.123..251H. doi:10.1016/0022-2852(87)90275-X.

^ Araki M, Ozeki H, Saito S (1998). "Laboratory Measurement of the Pure Rotational Transitions of HCNH⁺ and Its Isotopic Species". Astrophysical Journal Letters. 496 (1): L53. arXiv:astro-ph/9801241. Bibcode:1998ApJ...496L..53A. doi:10.1086/311245. S2CID 17868534.

^ Amano T, Hashimoto K, Hirao T (2006). "Submillimeter-wave spectroscopy of HCNH⁺ and CH₃CNH⁺". Journal of Molecular Structure. 795 (1–3): 190–193. Bibcode:2006JMoSt.795..190A. doi:10.1016/j.molstruc.2006.02.035.

^ Millar TJ, Farquhar PR, Willacy K (1997). "The UMIST Database for Astrochemistry 1995". Astronomy & Astrophysics Supplement Series. 121 (1): 139–185. arXiv:1212.6362. Bibcode:1997A&AS..121..139M. doi:10.1051/aas:1997118.

^ Ziurys, L. M.; Turner, B. E. (1986). "HCNH⁺: A New Interstellar Molecular Ion" (PDF). The Astrophysical Journal Letters. 302: L31–L36. Bibcode:1986ApJ...302L..31Z. doi:10.1086/184631. PMID 11542069.

^ ^a ^b ^c Schilke P, Walmsley CM, Millar TJ, Henkel C (1991). "Protonated HCN in molecular clouds". Astronomy & Astrophysics. 247: 487–496. Bibcode:1991A&A...247..487S.

^ Ziurys, L. M.; Apponi, A.J.; Yoder, J. T. (1992). "Detection of the Quadrupole Hyperfine Structure in HCNH⁺". The Astrophysical Journal Letters. 397: L123–L126. Bibcode:1992ApJ...397L.123Z. doi:10.1086/186560.

^ Hezareh T, Houde M, McCoey C, Vastel C, Peng R (2008). "Simultaneous Determination of the Cosmic Ray Ionization Rate and Fractional Ionization in DR 21(OH)". The Astrophysical Journal. 684 (2): 1221–1227. arXiv:0805.4018. Bibcode:2008ApJ...684.1221H. doi:10.1086/590365. S2CID 6284545.

^ Nummelin A, Bergman P, Hjalmarson Å, Friberg P, Irvine WM, Millar TJ, Ohishi M, Saito S (2000). "A Three-Position Spectral Line Survey of Sagittarius B2 between 218 and 263 GHz. II. Data Analysis". The Astrophysical Journal Supplement Series. 128 (1): 213–243. Bibcode:2000ApJS..128..213N. doi:10.1086/313376. hdl:10098/1550.

^ Cravens TE, Robertson IP, Waite JH, Yelle RV, Kasprzak WT, Keller CN, Ledvina SA, Niemann HB, Luhmann JG, McNutt RL, Ip WH, De La Haye V, Mueller-Wodarg I, Wahlund JE, Anicich VG, Vuitton V (2006). "Composition of Titan's atmosphere" (PDF). Geophysical Research Letters. 33 (7): L07105. Bibcode:2006GeoRL..3307105C. doi:10.1029/2005GL025575. hdl:2027.42/94758.

^ Ziurys, L. M.; Savage, C.; Brewster, M. A.; Apponi, A. J.; Pesch, T. C.; Wyckoff, S. (1999). "Cyanide Chemistry in Comet Hale-Bopp (C/1995 O1)". The Astrophysical Journal Letters. 527 (1): L67–L71. Bibcode:1999ApJ...527L..67Z. doi:10.1086/312388. PMID 10567001.

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