C. Barrère, M. Hubert-roux, C. M. Lange, M. Rejaibi, N. Kebir et al., Solvent-based and solvent-free characterization of low solubility and low molecular weight polyamides by mass spectrometry: a complementary approach, Rapid Communications in Mass Spectrometry, vol.26, issue.11, pp.1347-1354, 2012.

J. Bonnet, R. Thissen, M. Frisari, V. Vuitton, É. Quirico et al., Compositional and structural investigation of HCN polymer through high resolution mass spectrometry, International Journal of Mass Spectrometry, vol.354, pp.193-203, 2013.

M. L. Cable, S. M. Hörst, C. He, A. M. Stockton, M. F. Mora et al., Identification of primary amines in Titan tholins using microchip nonaqueous capillary electrophoresis, Earth and Planetary Science Letters, vol.403, pp.99-107, 2014.

M. L. Chacón-patiño, S. M. Rowland, and R. P. Rodgers, Advances in Asphaltene Petroleomics. Part 1: Asphaltenes Are Composed of Abundant Island and Archipelago Structural Motifs, Energy & Fuels, vol.31, issue.12, pp.13509-13518, 2017.

M. L. Chacón-patiño, S. M. Rowland, and R. P. Rodgers, Advances in Asphaltene Petroleomics. Part 2: Selective Separation Method That Reveals Fractions Enriched in Island and Archipelago Structural Motifs by Mass Spectrometry, Energy & Fuels, vol.32, issue.1, pp.314-328, 2017.

M. L. Chacón-patiño, S. M. Rowland, and R. P. Rodgers, Advances in Asphaltene Petroleomics. Part 3. Dominance of Island or Archipelago Structural Motif Is Sample Dependent, Energy & Fuels, vol.32, issue.9, pp.9106-9120, 2018.

Y. Cho, Y. H. Kim, and S. Kim, Planar limit-assisted structural interpretation of saturates/ aromatics/resins/asphaltenes fractionated crude oil compounds observed by Fourier transform ion cyclotron resonance mass spectrometry, Analytical chemistry, vol.83, pp.6068-6073, 2011.

P. Coll, D. Coscia, N. Smith, M. Gazeau, S. I. Ramirez et al., Experimantal laboratory simulation of Titan's atmosphere: aerosols and gas phase, Planetary and Space Science, vol.47, pp.1331-1340, 1999.

S. Derenne, C. Coelho, C. Anquetil, C. Szopa, A. S. Rahman et al., New insights into the structure and chemistry of Titan?s tholins via 13C and 15N solid state nuclear magnetic resonance spectroscopy, Icarus, vol.221, issue.2, pp.844-853, 2012.

B. M. Dinelli, M. López-puertas, A. Adriani, M. L. Moriconi, B. Funke et al., An unidentified emission in Titan's upper atmosphere, Geophysical Research Letters, vol.40, issue.8, pp.1489-1493, 2013.

T. Gautier, N. Carrasco, A. Buch, C. Szopa, E. Sciamma-o'brien et al., Nitrile gas chemistry in Titan's atmosphere, Icarus, vol.213, pp.625-635, 2011.

T. Gautier, N. Carrasco, A. Mahjoub, S. Vinatier, A. Giuliani et al., Mid- and far-infrared absorption spectroscopy of Titan?s aerosols analogues, Icarus, vol.221, issue.1, pp.320-327, 2012.

T. Gautier, N. Carrasco, I. Schmitz-afonso, D. Touboul, C. Szopa et al., Nitrogen incorporation in Titan's tholins inferred by high resolution orbitrap mass spectrometry and gas chromatography?mass spectrometry, Earth and Planetary Science Letters, vol.404, pp.33-42, 2014.

T. Gautier, I. Schmitz-afonso, D. Touboul, C. Szopa, A. Buch et al., Development of HPLC-Orbitrap method for identification of N-bearing molecules in complex organic material relevant to planetary environments, Icarus, vol.275, pp.259-266, 2016.
URL : https://hal.archives-ouvertes.fr/insu-01309178

T. Gautier, J. A. Sebree, X. Li, V. T. Pinnick, A. Grubisic et al., Influence of trace aromatics on the chemical growth mechanisms of Titan aerosol analogues, Planetary and Space Science, vol.140, pp.27-34, 2017.

S. Gupta, E. Ochiai, and C. Ponnamperuma, ORGANIC-SYNTHESIS IN THE ATMOSPHERE OF TITAN, Nature, vol.293, pp.725-727, 1981.

C. He and M. A. Smith, A comprehensive NMR structural study of Titan aerosol analogs: Implications for Titan's atmospheric chemistry, Icarus, vol.243, pp.31-38, 2014.

C. He and M. A. Smith, Identification of nitrogenous organic species in Titan aerosols analogs: Implication for prebiotic chemistry on Titan and early Earth, Icarus, vol.238, pp.86-92, 2014.

C. He and M. A. Smith, NMR study of the potential composition of Titan???s lakes, Planetary and Space Science, vol.109, pp.149-153, 2015.

C. A. Hughey, R. P. Rodgers, and A. G. Marshall, Resolution of 11 000 Compositionally Distinct Components in a Single Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrum of Crude Oil, Analytical chemistry, p.74, 2002.

H. Imanaka, B. N. Khare, J. E. Elsila, E. L. Bakes, C. P. Mckay et al., Laboratory experiments of Titan tholin formed in cold plasma at various pressures: implications for nitrogen-containing polycyclic aromatic compounds in Titan haze, Icarus, vol.168, pp.344-366, 2004.

G. Israël, C. Szopa, F. Raulin, M. Cabane, H. B. Niemann et al., Complex organic matter in Titan's atmospheric aerosols from in situ pyrolysis and analysis, Nature, vol.438, issue.7069, pp.796-799, 2005.

J. Le-maître, M. Hubert-roux, B. Paupy, S. Marceau, C. Rüger et al., Structural analysis of heavy oil fractions after hydrodenitrogenation by high-resolution tandem mass spectrometry and ion mobility spectrometry, Faraday Discussions, 2019.

M. López-puertas, B. M. Dinelli, A. Adriani, B. Funke, M. García-comas et al., Large Abundances of Polycyclic Aromatic Hydrocarbons in Titan's Upper Atmosphere, The Astrophysical Journal, vol.770, p.132, 2013.

J. Maillard, N. Carrasco, I. Schmitz-afonso, T. Gautier, and C. Afonso, Comparison of soluble and insoluble organic matter in analogues of Titan's aerosols, Earth and Planetary Science Letters, vol.495, pp.185-191, 2018.

J. Maillard, J. Ferey, C. P. Ruger, I. Schmitz-afonso, S. Bekri et al., Optimization of ion trajectories in a dynamically harmonized Fourier-Transform Ion Cyclotron Resonance cell using a Design of Experiments strategy, 2019.
URL : https://hal.archives-ouvertes.fr/insu-02395300

J. Maillard, S. Hupin, N. Carrasco, I. Schmitz-afonso, T. Gautier et al., Structural elucidation of soluble organic matter: Application to Titan's haze, Icarus, p.113627, 2020.

A. G. Marshall and R. P. Rodgers, Petroleomics: chemistry of the underworld, Proceedings of the National Academy of Sciences of the United States of America, vol.105, pp.18090-18095, 2008.

C. N. Matthews and R. D. Minard, Hydrogen cyanide polymers, comets and the origin of life, Faraday Discussions, vol.133, p.393, 2006.

C. P. Mckay, J. B. Pollack, and R. Courtin, The thermal structure of Titan's atmosphere, Icarus, vol.80, pp.23-53, 1989.

E. N. Nikolaev, I. A. Boldin, R. Jertz, and G. Baykut, Initial experimental characterization of a new ultra-high resolution FTICR cell with dynamic harmonization, Journal of the American Society for Mass Spectrometry, vol.22, pp.1125-1133, 2011.

O. Poch, P. Coll, A. Buch, S. I. Ramírez, and F. Raulin, Production yields of organics of astrobiological interest from H2O-NH3 hydrolysis of Titan's tholins, Planetary and Space Science, vol.61, pp.114-123, 2012.

C. P. Ruger, J. Maillard, J. Le-maitre, M. Ridgeway, C. J. Thompson et al., Structural Study of Analogues of Titan's Haze by Trapped Ion Mobility Coupled with a Fourier Transform Ion Cyclotron Mass Spectrometer, Journal of the American Society for Mass Spectrometry, vol.30, pp.1169-1173, 2019.
URL : https://hal.archives-ouvertes.fr/insu-02123537

C. P. Rüger, A. Neumann, M. Sklorz, T. Schwemer, and R. Zimmermann, Thermal Analysis Coupled to Ultrahigh Resolution Mass Spectrometry with Collision Induced Dissociation for Complex Petroleum Samples: Heavy Oil Composition and Asphaltene Precipitation Effects, Energy & Fuels, vol.31, pp.13144-13158, 2017.

C. Sagan, B. N. Khare, W. R. Thompson, G. D. Mcdonald, M. R. Wing et al., Polycyclic aromatic hydrocarbons in the atmospheres of Titan and Jupiter, The Astrophysical Journal, vol.414, p.399, 1993.

C. Sagan and W. Reid-thompson, Production and condensation of organic gases in the atmosphere of Titan, Icarus, vol.59, pp.133-161, 1984.

R. E. Samuelson, A. Mayo, and L. , Thermal infrared properties of Titan's stratospheric aerosol, Icarus, vol.91, pp.207-219, 1991.

-. Sciamma, E. Brien, N. Carrasco, C. Szopa, A. Buch et al., Titan's atmosphere: An optimal gas mixture for aerosol production, Icarus, vol.209, pp.704-714, 2010.

L. Selliez, J. Maillard, B. Cherville, T. Gautier, L. Thirkell et al., High resolution mass spectrometry for future space missions: comparative analysis of complex organic matter with LAb-CosmOrbitrap and LDI-FTICR, 2019.

A. K. Shukla and J. H. Futrell, Tandem mass spectrometry: dissociation of ions by collisional activation, Journal of Mass Spectrometry, vol.35, pp.1069-1090, 2000.

D. F. Smith, D. C. Podgorski, R. P. Rodgers, G. T. Blakney, and C. L. Hendrickson, 21 Tesla FT-ICR Mass Spectrometer for Ultrahigh-Resolution Analysis of Complex Organic Mixtures, Analytical chemistry, vol.90, pp.2041-2047, 2018.

A. Somogyi, C. H. Oh, M. A. Smith, and J. I. Lunine, Organic environments on Saturn's moon, Titan: simulating chemical reactions and analyzing products by FT-ICR and ion-trap mass spectrometry, Journal of the American Society for Mass Spectrometry, vol.16, pp.850-859, 2005.

Á. Somogyi, M. A. Smith, V. Vuitton, R. Thissen, and I. Komáromi, Chemical ionization in the atmosphere? A model study on negatively charged "exotic" ions generated from Titan's tholins by ultrahigh resolution MS and MS/MS, International Journal of Mass Spectrometry, pp.157-163, 2012.

A. Somogyi, R. Thissen, F. R. Orthous-daunay, and V. Vuitton, The Role of Ultrahigh Resolution Fourier Transform Mass Spectrometry (FT-MS) in Astrobiology-Related Research: Analysis of Meteorites and Tholins, International journal of molecular sciences, vol.17, p.439, 2016.

P. M. Spiecker, K. L. Gawrys, and P. K. Kilpatrick, Aggregation and solubility behavior of asphaltenes and their subfractions, Journal of Colloid and Interface Science, vol.267, pp.178-193, 2003.

C. Szopa, G. Cernogora, L. Boufendi, J. J. Correia, and P. Coll, PAMPRE: A dusty plasma experiment for Titan's tholins production and study, Planetary and Space Science, vol.54, pp.394-404, 2006.

M. G. Trainer, A. A. Pavlov, H. L. Dewitt, J. L. Jimenez, C. P. Mckay et al., Organic haze on Titan and the early Earth, Proceedings of the National Academy of Sciences of the United States of America, vol.103, pp.18035-18042, 2006.

V. Vuitton, J. Bonnet, M. Frisari, R. Thissen, E. Quirico et al., Very high resolution mass spectrometry of HCN polymers and tholins, Planetary and Space Science, vol.147, pp.1558-1572, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00510369

V. Vuitton, R. V. Yelle, and V. G. Anicich, The nitrogen chemistry of Titan's upper atmosphere revealed, Astrophys. J, vol.647, pp.175-178, 2006.

V. Vuitton, R. V. Yelle, S. J. Klippenstein, S. M. Hörst, and P. Lavvas, Simulating the density of organic species in the atmosphere of Titan with a coupled ion-neutral photochemical model, Icarus, vol.324, pp.120-197, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02104659

V. Vuitton, R. V. Yelle, and M. J. Mcewan, Ion chemistry and N-containing molecules in Titan's upper atmosphere, Icarus, vol.191, pp.722-742, 2007.

J. H. Waite, . Jr, D. T. Young, T. E. Cravens, A. J. Coates et al., The process of tholin formation in Titan's upper atmosphere, Science, vol.316, pp.870-875, 2007.

J. H. Westlake, J. H. Waite, N. Carrasco, M. Richard, and T. Cravens, The role of ionmolecule reactions in the growth of heavy ions in Titan's ionosphere, J. Geophys. Res-Space Phys, vol.119, pp.5951-5963, 2014.