[1] Zhao G, Hausmaninger T, Schmidt F M, et al. High-resolution trace gas detection by sub-Doppler noise-immune cavity-enhanced optical heterodyne molecular spectrometry: Application to detection of acetylene in human breath [J]. Optics Express, 2019, 27(13): 17940.

[2] Delikonstantis E, Scapinello M, Stefanidis G D. Low energy cost conversion of methane to ethylene in a hybrid plasma-catalytic reactor system [J]. Fuel Processing Technology, 2018, 176: 33-42.

[3] Liu K, Zhao W X, Wang L, et al. Quartz-enhanced photoacoustic spectroscopy of HCN from 6433 to 6613 cm-1 [J]. Optics Communications, 2015, 340: 126-130.

[4] Driessen J P A M, Kuypers A D, Schoonman J. A mass-spectroscopical study of the decomposition of Ti(NMe2)4 in a mixed Ar-H2-N2 pulsed d.c. plasma [J]. Surface and Coatings Technology, 1998, 110(3): 173-183.

[5] Pirali O, Vervloet M. Far-infrared Fourier transform emission spectroscopy in the gas phase [J]. Chemical Physics Letters, 2006, 423(4/5/6): 376-381.

[6] Fujii T. Analysis of products from a C2H2/N2 microwave discharge: New nitrile species [J]. Chemical Physics Letters, 1999, 313(5/6): 733-740.

[7] Smith J A, Wills J B, Moores H S, et al. Effects of NH3 and N2 additions to hot filament activated CH4/H2 gas mixtures[J]. Journal of Applied Physics, 2002, 92(2): 672-681.

[8] Gannon K L, Glowacki D R, Blitz M A, et al. H atom yields from the reactions of CN radicals with C2H2, C2H4, C3H6, trans-2-C4H8, and iso-C4H8 [J]. The Journal of Physical Chemistry A, 2007, 111(29): 6679-6692.

[9] Alzueta M U, Glarborg P, Dam-Johansen K. Low temperature interactions between hydrocarbons and nitric oxide: An experimental study [J]. Combustion and Flame, 1997, 109(1/2): 25-36.

[10] Meunier P, Costa M, Carvalho M G. The formation and destruction of NO in turbulent propane diffusion flames [J]. Fuel, 1998, 77(15): 1705-1714.

[11] Jauberteau J L, Jauberteau I, Cinelli M J, et al. Reactivity of methane in a nitrogen discharge afterglow [J]. New Journal of Physics, 2002, 4: 39.

[12] Guan Z Y, Li B, Qian J L, et al. Investigation of formation of CN radical from nitrogen and methane mixture [J]. Chinese Journal of Quantum Electronics, 2020, 37(2): 144-149.

[13] Hempel F, Davies P B, Loffhagen D, et al. Diagnostic studies of H2-Ar-N2 microwave plasmas containing methane or methanol using tunable infrared diode laser absorption spectroscopy [J]. Plasma Sources Science and Technology, 2003, 12(4): S98-S110.

[14] Pringle K J, Whitehead J C, Wilman J J, et al. The chemistry of methane remediation by a non-thermal atmospheric pressure plasma [J]. Plasma Chemistry and Plasma Processing, 2004, 24(3): 421-434.

[15] Tanarro I, Herrero V J, Islyaikin A M, et al. Ion chemistry in cold plasmas of H2 with CH4 and N2 [J]. The Journal of Physical Chemistry A, 2007, 111(37): 9003-9012.

[16] Gorodetskii A E, Zalavutdinov R K, Bukhovets V L, et al. Transfer and deposition of carbon-and nitrogen-containing radicals and ions produced by glow discharge in hydrogen/methane/nitrogen mixtures [J]. Protection of Metals, 2008, 44(6): 542-547.

[17] Horvath G, Skalny J D, Mason N J, et al. Corona discharge experiments in admixtures of N2 and CH4: A laboratory simulation of Titan’s atmosphere [J]. Plasma Sources Science and Technology, 2009, 18(3): 034016.

[18] Torokova L, Watson J, Krcma F, et al. Gas chromatography analysis of discharge products in N2-CH4 gas mixture at atmospheric pressure: Study of mimic Titan’s atmosphere [J]. Contributions to Plasma Physics, 2015, 55(6): 470-480.

[19] Gordon I E, Rothman L S, Hill C, et al. The HITRAN2016 molecular spectroscopic database [J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2017, 203(2): 3-69.

[20] Raulin F, Mourey D, Toupance G. Organic syntheses from CH4-N2 atmospheres: Implications for Titan [J]. Origins of Life, 1982, 12(3): 267-279.

[21] Torokova L, Watson J, Krcma F, et al. Gas chromatography analysis of discharge poducts in N2-CH4 gas mixture at atmospheric pressure: Study of mimic Titan’s atmosphere [J]. Contributions to Plasma Physics, 2015, 55(6): 470-480.

[22] Horvath G, Krcma F, Polachova L, et al. Organic chemistry of NH3 and HCN induced by an atmospheric abnormal glow discharge in N2-CH4 mixtures [J]. The European Physical Journal-Applied Physics, 2011, 53(1): 11001.

[23] Yousefi M, Bernath P F, Hodges J, et al. A new line list for the A2Σ+-X2Π electronic transition of OH [J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2018, 217: 416-424.

[24] Menor-Salván C, Ruiz-Bermejo M, Osuna-Esteban S, et al. Synthesis of polycyclic aromatic hydrocarbons and acetylene polymers in ice: A prebiotic scenario [J]. Chemistry & Biodiversity, 2008, 5(12): 2729-2739.

[25] Wang X M, Yang S D, Chen Y Q, et al. Dependence of CH molecular beam intensity on ratio of CH4 buffering in helium and vibration and rotation temperatures calculation of CH(A2Δ) [J]. Acta Optica Sinica, 2006, 26(12): 1866-1870.

[26] Chen D L, Li Q, Yu Z L, et al. Study on conversion of methane and nitrogen under the microwave plasma [J]. Natural Gas Chemical Industry, 2000, 25(4): 28-33.

[27] Hamann S, Burlacov I, Spies H J, et al. Spectroscopic investigations of plasma nitriding processes: A comparative study using steel and carbon as active screen materials [J]. Journal of Applied Physics, 2017, 121(15): 153301.

[28] Rimmer P B, Rugheimer S. Hydrogen cyanide in nitrogen-rich atmospheres of rocky exoplanets [J]. Icarus, 2019, 329: 124-131.