R. J. Trumpler, Absorption of light in the galactic system, Publ Astron Soc Pac, vol.42, pp.214-241, 1930.

E. Herbst and E. F. Van-dishoeck, Complex Organic Interstellar Molecules, Annu Rev Astron Astrophys, vol.47, pp.427-80, 2009.

B. T. Draine, Interstellar Dust Grains, Annu Rev Astron Astrophys, vol.41, pp.241-89, 2003.

F. Désert, F. Boulanger, and J. L. Puget, Interstellar dust models for extinction and emission, Astron Astrophys, vol.237, pp.215-251, 1990.

E. B. Jenkins, A unified representation of gas-phase element depletions in the interstellar medium, Astrophys J, vol.700, pp.1299-348, 2009.

N. Mauron and P. J. Huggins, Gas phase atomic metals in the circumstellar envelope of IRC+10216, Astron Astrophys, vol.513, p.31, 2010.

G. Serra, B. Chaudret, and Y. Saillard, Organometallic chemistry in the interstellar medium. I -Are organometallic reactions efficient processes in astrochemistry?, \aap, vol.260, pp.489-93, 1992.

F. Kemper, A. De-koter, L. Waters, J. Bouwman, and A. Tielens, Dust and the spectral energy distribution of the OH/IR star OH 127.8+0.0: Evidence for circumstellar metallic iron, Astron Astrophys, vol.384, pp.585-93, 2002.

E. Anders and E. Zinner, Interstellar Grains in Primitive Meteorites: Diamond, Silicon

C. and G. , Meteoritics, vol.28, pp.490-514, 1993.

K. Lodders and S. Amari, Presolar grains from meteorites: Remnants from the early times of the solar system, Geochemistry, vol.65, pp.93-166, 2005.

H. Sabbah, A. Bonnamy, D. Papanastasiou, J. Cernicharo, J. Martín-gago et al., Identification of PAH Isomeric Structure in Cosmic Dust Analogs: The AROMA Setup
URL : https://hal.archives-ouvertes.fr/hal-01582963

, Astrophys J, vol.843, p.34, 2017.

H. Sabbah, A. L. Morrow, P. Jenniskens, M. H. Shaddad, and R. N. Zare, Polycyclic aromatic hydrocarbons in asteroid 2008 TC3: Dispersion of organic compounds inside asteroids: Polycyclic aromatic hydrocarbons in asteroid 2008 TC3, Meteorit Planet Sci, vol.45, pp.1710-1717, 2010.

F. L. Plows, J. E. Elsila, R. N. Zare, and P. R. Buseck, Evidence that polycyclic aromatic hydrocarbons in two carbonaceous chondrites predate parent-body formation, Geochim Cosmochim Acta, vol.67, pp.1429-1436, 2003.

J. Dorschner and T. Henning, Dust metamorphosis in the galaxy, Astron Astrophys Rev, vol.6, pp.271-333, 1995.

H. Gail and E. Sedlmayr, Physics and chemistry of circumstellar dust shells

J. C. Lattanzio and P. R. Wood, Evolution, Nucleosynthesis, and Pulsation of AGB Stars, Habing HJ, Olofsson H, éditeurs, pp.23-104, 2004.

A. Sarangi and I. Cherchneff, The chemically controlled synthesis of dust in type ii-p supernovae, Astrophys J, vol.776, p.107, 2013.

M. Matsuura, D. Buizer, J. M. Arendt, and R. G. , SOFIA mid-infrared observations of Supernova 1987A in 2016 -forward shocks and possible dust re-formation in the post-shocked region, Mon Not R Astron Soc, vol.482, pp.1715-1738, 2019.
URL : https://hal.archives-ouvertes.fr/hal-01929081

C. Jäger, H. Gail, F. Rietmeijer, J. A. Nuth, H. Mutschke et al., Formation of Nanoparticles and Solids, Laboratory Astrochemistry Weinheim, pp.419-500, 2014.

K. Lodders and B. Fegley, Condensation chemistry of circumstellar grains, pp.279-90, 1999.

D. S. Ebel, Variations on solar condensation: Sources of interstellar dust nuclei, J Geophys Res Space Phys, vol.105, pp.10363-70, 2000.

D. Gobrecht, L. Decin, S. Cristallo, and S. T. Bromley, A global optimisation study of the lowlying isomers of the alumina octomer (Al2O3)8, Chem Phys Lett, vol.711, pp.138-185, 2018.

L. Decin, A. Richards, and L. Waters, Study of the aluminium content in AGB winds using ALMA: Indications for the presence of gas-phase (Al 2 O 3 ) n clusters, Astron Astrophys, vol.608, p.55, 2017.

G. Pascoli and A. Polleux, Condensation and growth of hydrogenated carbon clusters in carbon-rich stars, pp.799-810, 2000.

I. Cherchneff, The formation of Polycyclic Aromatic Hydrocarbons in evolved circumstellar environments, EAS Publ Ser, vol.46, pp.177-89, 2011.

L. Biennier, H. Sabbah, S. J. Klippenstein, V. Chandrasekaran, I. R. Sims et al., Insights into the condensation of PAHsin the envelope of IRC +10216, EAS Publ Ser, vol.46, pp.191-200, 2011.

A. K. Speck, A. B. Corman, K. Wakeman, C. H. Wheeler, and G. Thompson, Silicon carbide absorption features: dust formation in the outflows of extreme carbon stars, Astrophys J, vol.691, pp.1202-1223, 2009.

J. Cernicharo, M. C. Mccarthy, and C. A. Gottlieb, DISCOVERY OF SiCSi IN IRC+10216: A missing link between gas and dust carriers of si-c bonds, Astrophys J, vol.806, p.3, 2015.

T. Henning, Laboratory Astrophysics of Cosmic Dusta Analogues, Astromineralogy, 2010.

H. W. Kroto, J. R. Heath, S. C. O'brien, R. F. Curl, and R. E. Smalley, C60: Buckminsterfullerene, Nature, vol.318, pp.162-165, 1985.

Y. Carpentier, G. Féraud, and E. Dartois, Nanostructuration of carbonaceous dust as seen through the positions of the 6.2 and 7.7 µ m AIBs, Astron Astrophys, vol.548, p.40, 2012.

C. Jäger, F. Huisken, H. Mutschke, I. L. Jansa, and H. Th, Formation of polycyclic aromatic hydrocarbons and carbonaceous solids in gas-phase condensation experiments

, Astrophys J, vol.696, pp.706-718, 2009.

C. S. Contreras and F. Salama, Laboratory investigations of polycyclic aromatic hydrocarbon formation and destruction in the circumstellar outflows of carbon stars, Astrophys J Suppl Ser, vol.208, p.6, 2013.

E. Kova?evi?, I. Stefanovi?, J. Berndt, Y. J. Pendleton, and J. Winter, A Candidate Analog for Carbonaceous Interstellar Dust: Formation by Reactive Plasma Polymerization, Astrophys J, vol.623, pp.242-51, 2005.

A. Tielens, Infrared Spectroscopy of Interstellar Dust, EAS Publ Ser, vol.35, pp.33-56, 2009.

J. R. Brucato, V. Mennella, L. Colangeli, A. Rotundi, and P. Palumbo, Production and processing of silicates in laboratory and in space, Planet Space Sci, vol.50, pp.829-866, 2002.

K. Demyk, C. Meny, and H. Leroux, Low-temperature MIR to submillimeter mass absorption coefficient of interstellar dust analogues: II. Mg and Fe-rich amorphous silicates?

, Astron Astrophys, vol.606, p.50, 2017.

Y. J. Pendleton and L. J. Allamandola, The Organic Refractory Material in the Diffuse Interstellar Medium: Mid-Infrared Spectroscopic Constraints, Astrophys J Suppl Ser, vol.138, pp.75-98, 2002.

T. Q. Zhao, Q. Li, B. S. Liu, R. Gover, P. J. Sarre et al., Laboratory astrochemistry: catalytic conversion of acetylene to polycyclic aromatic hydrocarbons over SiC grains, Phys Chem Chem Phys, vol.18, pp.3489-96, 2016.

R. J. Peláez, B. Maté, and I. Tanarro, Plasma generation and processing of interstellar carbonaceous dust analogs, Plasma Sources Sci Technol, vol.27, p.35007, 2018.

I. Langmuir, C. G. Found, and A. F. Dittmer, A new type of electric discharge: the streamer discharge, Science, vol.60, pp.392-396, 1924.

J. Winter, Dust in fusion devices -experimental evidence, possible sources and consequences, Plasma Phys Control Fusion, vol.40, pp.1201-1211, 1998.

A. Scarangella, M. Soumbo, and A. Mlayah, Detection of the conformational changes of Discosoma red fluorescent proteins adhered on silver nanoparticles-based nanocomposites via surface-enhanced Raman scattering, Nanotechnology, vol.30, p.165101, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02060441

A. Pugliara, K. Makasheva, and B. Despax, Assessing bio-available silver released from silver nanoparticles embedded in silica layers using the green algae Chlamydomonas reinhardtii as bio-sensors, Sci Total Environ, vol.565, pp.863-71, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01718633

A. Pugliara, C. Bonafos, R. Carles, B. Despax, and K. Makasheva, Controlled elaboration of large-area plasmonic substrates by plasma process, Mater Res Express, vol.2, p.65005, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01763544

L. Milliere, K. Makasheva, C. Laurent, B. Despax, L. Boudou et al., Silver dc stress, J Phys Appl Phys, vol.49, p.15304, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02448489

L. Milliere, Maîtrise des interfaces pour le contôle de l'injection de charges dans les polymères isolants électriques, 2015.

J. Barbé, L. Xie, and K. Leifer, Silicon nanocrystals on amorphous silicon carbide alloy thin films: Control of film properties and nanocrystals growth, Thin Solid Films, vol.522, pp.136-180, 2012.

M. Moisan and J. Pelletier, Physics of Collisional Plasmas, 2012.
URL : https://hal.archives-ouvertes.fr/in2p3-00766269

P. Fauchais, Gaz ionisés et plasmas, Tech Ing Sci Fondam, 2000.

B. Ph, B. Jph, and L. Boufendi, Numerical and experimental diagnostics of rf discharges in pure and dusty argon, Phys Rev A, vol.46, pp.7923-7956, 1992.

M. Mikikian, L. Boufendi, and A. Bouchoule, Formation and behaviour of dust particle clouds in a radio-frequency discharge: results in the laboratory and under microgravity conditions, New J Phys, vol.5, pp.19-20, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00187354

A. Bouchoule, Dusty plasmas: physics, chemistry, and technological impacts in plasma processing, 1999.

. Billard-a and . Perry-f, Pulvérisation cathodique magnétron, p.360, 2005.

. Bergmann-e, Dépôts sous vide par procédés plasma Principes, p.360, 2014.

D. Samsonov and J. Goree, Instabilities in a dusty plasma with ion drag and ionization, Phys Rev E, vol.59, pp.1047-58, 1999.

L. Martínez, K. Lauwaet, and G. Santoro, Precisely controlled fabrication, manipulation and in-situ analysis of Cu based nanoparticles, Sci Rep, vol.8, p.7250, 2018.

A. Bouchoule and L. Boufendi, Particulate formation and dusty plasma behaviour in argonsilane RF discharge, Plasma Sources Sci Technol, vol.2, pp.204-217, 1993.

B. Strahm and H. Ch, Powder formation in SiH4-H2 discharge in large area capacitively coupled reactors: A study of the combined effect of interelectrode distance and pressure, J Appl Phys, vol.107, p.23302, 2010.

A. Makdessi, G. , G. X. Dap, S. Rojo, M. Clergereaux et al., Influence of a magnetic field on the formation of carbon dust particles in very low-pressure high-density plasmas, J Phys Appl Phys, vol.50, p.155203, 2017.

E. Kovacevic, J. Berndt, T. Strunskus, and L. Boufendi, Size dependent characteristics of plasma synthesized carbonaceous nanoparticles, J Appl Phys, vol.112, p.13303, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00831940

J. Winter, J. Berndt, S. Hong, E. Kova?evi?, I. Stefanovi? et al., Dust formation in Ar/CH 4 and Ar/C 2 H 2 plasmas, Plasma Sources Sci Technol, vol.18, p.34010, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00454887

V. Massereau-guilbaud, J. Pereira, I. Géraud-grenier, and A. Plain, Influence of the power on the particles generated in a low pressure radio frequency nitrogen-rich methane discharge, J Appl Phys, vol.105, p.33302, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00438775

A. Granier, M. Vervloet, K. Aumaille, and . Vall-e-c, Optical emission spectra of TEOS and HMDSO derived plasmas used for thin film deposition, Plasma Sources Sci Technol, vol.12, pp.89-96, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00477247

B. Despax, K. Makasheva, and H. Caquineau, Cyclic powder formation during pulsed injection of hexamethyldisiloxane in an axially asymmetric radiofrequency argon discharge, J Appl Phys, vol.112, p.93302, 2012.

M. Ricci, J. Dorier, C. Hollenstein, and P. Fayet, Influence of Argon and Nitrogen Admixture in HMDSO/O2 Plasmas onto Powder Formation, Plasma Process Polym, pp.108-125, 2010.

B. Despax, F. Gaboriau, H. Caquineau, and K. Makasheva, Influence of the temporal variations of plasma composition on the cyclic formation of dust in hexamethyldisiloxane-argon radiofrequency discharges: Analysis by time-resolved mass spectrometry, AIP Adv, vol.6, p.105111, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02448285

D. Magni, C. H. Deschenaux, C. Courteille, A. A. Howling, C. H. Hollenstein et al., Gas Phase and Particle Diagnostic of Hmdso Plasmas by Infrared Absorption Spectroscopy, MRS Proc, vol.544, 1998.

J. Perrin, C. Bohm, R. Etemadi, and A. Lloret, Possible routes for cluster growth and particle formation in RF silane discharges, Plasma Sources Sci Technol, vol.3, pp.252-61, 1994.

C. Hollenstein, The physics and chemistry of dusty plasmas, Plasma Phys Control Fusion, vol.42, pp.93-104, 2000.

S. Mitic, M. Y. Pustylnik, G. E. Morfill, and E. Kova?evi?, In situ characterization of nanoparticles during growth by means of white light scattering, Opt Lett, vol.36, p.3699, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00831944

M. Mikikian, S. Labidi, V. Wahl, and E. , Optical diagnostics of dusty plasmas during nanoparticle growth, Plasma Phys Control Fusion, vol.59, p.14034, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01415120

E. Kova?evi?, I. Stefanovi?, J. Berndt, and J. Winter, Infrared fingerprints and periodic formation of nanoparticles in Ar/C2H2 plasmas, J Appl Phys, vol.93, pp.2924-2954, 2003.

L. Boufendi and A. Bouchoule, Particle nucleation and growth in a low-pressure argon-silane discharge, Plasma Sources Sci Technol, vol.3, pp.262-269, 1994.

J. Berndt, E. Kova?evi?, and I. Stefanovi?, Some Aspects of Reactive Complex Plasmas
URL : https://hal.archives-ouvertes.fr/hal-00448374

, Contrib Plasma Phys, vol.49, pp.107-140, 2009.

V. Massereau-guilbaud, I. Geraud-grenier, J. Lagrange, H. Tawidian, and M. Mikikian,

, Electron Temperature Evolution in a Low-Pressure Dusty RF Nitrogen-Rich Methane Plasma, IEEE Trans Plasma Sci, vol.41, pp.816-837, 2013.

V. Garofano, L. Stafford, B. Despax, R. Clergereaux, and K. Makasheva, Cyclic evolution of the electron temperature and density in dusty low-pressure radio frequency plasmas with pulsed injection of hexamethyldisiloxane, Appl Phys Lett, vol.107, p.183104, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02448502

A. A. Fridman, L. Boufendi, T. Hbid, B. V. Potapkin, and A. Bouchoule, Dusty plasma formation: Physics and critical phenomena. Theoretical approach, J Appl Phys, vol.79, pp.1303-1317, 1996.

, NANOCOSMOS -Gas and dust from the Stars to the Laboratory: Exploring the Nanocosmos. Disponible sur

J. Cernicharo, J. D. Gallego, and J. A. López-pérez, Broad-band high-resolution rotational spectroscopy for laboratory astrophysics, Astron Astrophys, vol.626, p.34, 2019.

A. Bonnamy, P. Jusko, and M. Ji, PIRENEA 2: A new setup to study cosmic dust in the laboratory

B. Despax and P. Raynaud, Deposition of "Polysiloxane" Thin Films Containing Silver Particles by an RF Asymmetrical Discharge, Plasma Process Polym, vol.4, pp.127-161, 2007.

A. Pugliara, Elaboration of nanocomposites based on Ag nanoparticles embedded in dielectrics for controlled bactericide properties, Université Toulouse, vol.3, 2016.
URL : https://hal.archives-ouvertes.fr/tel-01701079

P. Sadler, M. Hundt, and H. Kersten, Diagnostics of particle forming process plasmas

R. Gilles, Dépôt de films nanométriques en pulvérisation cathodique radiofréquence, p.195, 2006.

J. Frayret, J. Mermet, and H. Paucot, ICP-OES : couplage plasma induit par haute fréquence -spectrométrie optique, Tech Ing Spectrométries, p.390, 2012.

A. Kramida and Y. Ralchenko, NIST Atomic Spectra Database, NIST Standard Reference Database 78. National Institute of Standards and Technology, 1999.

V. Garofano, R. Bérard, S. Boivin, C. Joblin, K. Makasheva et al., Multi-scale investigation in the frequency domain of Ar/HMDSO dusty plasma with pulsed injection of HMDSO, Plasma Sources Sci Technol, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02332813

Y. P. Raizer and J. E. Allen, Gas Discharge Physics, 1991.

J. Themlin, Propriétés électroniques des surfaces solides Techniques expérimentales

, Tech Ing Struct Matière, p.113, 2011.

G. Hollinger and . Spectroscopies-de-photoélectrons, XPS ou ESCA et UPS. Tech Ing Arch Tech Anal, 1986.

M. Strohalm, D. Kavan, P. Novák, M. Volný, and V. Havlí?ek, mMass 3: A Cross-Platform Software Environment for Precise Analysis of Mass Spectrometric Data, Anal Chem, vol.82, pp.4648-51, 2010.

R. Basner, R. Foest, M. Schmidt, K. Becker, and H. Deutsch, Absolute total and partial electron impact ionization cross sections of hexamethyldisiloxane, Int J Mass Spectrom, vol.176, pp.245-52, 1998.

V. M. Donnelly, Plasma electron temperatures and electron energy distributions measured by trace rare gases optical emission spectroscopy, J Phys Appl Phys, vol.37, pp.217-253, 2004.

I. Stefanovi?, N. Sadeghi, J. Winter, and B. Sikimi?, Influence of nanoparticle formation on the time and the space resolved metastable density in argon-acetylene plasmas, Plasma Sources Sci Technol, vol.26, p.65014, 2017.

N. Sadeghi, D. W. Setser, A. Francis, U. Czarnetzki, and H. F. Döbele, Quenching rate constants for reactions of Ar, J Chem Phys, vol.115, pp.3144-54, 2001.

C. Q. Jiao, C. A. Dejoseph, and A. Garscadden, Ion chemistries in hexamethyldisiloxane, J Vac Sci Technol Vac Surf Films, vol.23, pp.1295-304, 2005.

M. R. Alexander, F. R. Jones, and R. D. Short, Radio-Frequency Hexamethyldisiloxane Plasma Deposition: A Comparison of Plasma-and Deposit-Chemistry, Plasmas Polym, vol.2, pp.277-300, 1997.

M. R. Alexander, F. R. Jones, and R. D. Short, Mass Spectral Investigation of the Radio-Frequency Plasma Deposition of Hexamethyldisiloxane, J Phys Chem B, vol.101, pp.3614-3623, 1997.

V. Garofano, R. Bérard, X. Glad, C. Joblin, K. Makasheva et al., Time-resolved analysis of the precursor fragmentation kinetics in an hybrid PVD/PECVD dusty plasma with pulsed injection of HMDSO, Plasma Process Polym, vol.16, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02332862

M. R. Alexander, R. D. Short, F. R. Jones, M. Stollenwerk, J. Zabold et al.,

, Mater Sci, vol.31, pp.1879-85, 1996.

M. R. Alexander, R. D. Short, F. R. Jones, W. Michaeli, and C. J. Blomfield, A study of
URL : https://hal.archives-ouvertes.fr/hal-02199457

, HMDSO/O2 plasma deposits using a high-sensitivity and -energy resolution XPS instrument: curve fitting of the Si 2p core level, Appl Surf Sci, vol.137, pp.179-83, 1999.

P. Raynaud, B. Despax, Y. Segui, and H. Caquineau, FTIR Plasma Phase Analysis of

, Hexamethyldisiloxane Discharge in Microwave Multipolar Plasma at Different Electrical Powers, vol.2, pp.45-52, 2005.

C. Rau and W. Kulisch, Mechanisms of plasma polymerization of various silico-organic monomers, Thin Solid Films, vol.249, pp.28-37, 1994.

F. Ben?tez, E. Mart??ez, and J. Esteve, Improvement of hardness in plasma polymerized hexamethyldisiloxane coatings by silica-like surface modification, Thin Solid Films, pp.377-378, 2000.

R. Lamendola, R. Agostino, and F. Fracassi, Thin film deposition from hexamethyldisiloxane fed glow discharges, Plasmas Polym, vol.2, pp.147-64, 1997.

B. B. Lopes, R. Rangel, C. A. Antonio, S. F. Durrant, N. C. Cruz et al., Mechanical and Tribological Properties of Plasma Deposited a-C:H:Si:O Films. In: Nemecek J, éditeur, 2012.

A. L. Smith, Infrared spectra-structure correlations for organosilicon compounds

, Spectrochim Acta, vol.16, pp.87-105, 1960.

A. Lazauskas, J. Baltrusaitis, and V. Grigali?nas, Characterization of Plasma Polymerized Hexamethyldisiloxane Films Prepared by Arc Discharge, Plasma Chem Plasma Process, vol.34, pp.271-85, 2014.

D. Magni, C. Deschenaux, C. Hollenstein, A. Creatore, and P. Fayet, Oxygen diluted hexamethyldisiloxane plasmas investigated by means of in situ infrared absorption spectroscopy and mass spectrometry, J Phys Appl Phys, vol.34, pp.87-94, 2001.

P. Innocenzi, Infrared spectroscopy of sol-gel derived silica-based films: a spectramicrostructure overview, J Non-Cryst Solids, vol.316, pp.309-328, 2003.

J. Lee, J. Kim, and B. J. Lee, Characterization of mesoporous silica thin films for application to thermal isolation layer, Thin Solid Films, vol.660, pp.715-724, 2018.

P. Innocenzi, P. Falcaro, D. Grosso, and F. Babonneau, Order?Disorder Transitions and Evolution of Silica Structure in Self-Assembled Mesostructured Silica Films Studied through FTIR Spectroscopy, J Phys Chem B, vol.107, pp.4711-4718, 2003.

C. T. Kirk, Quantitative analysis of the effect of disorder-induced mode coupling on infrared absorption in silica, Phys Rev B, vol.38, pp.1255-73, 1988.

T. B. Wang, Z. G. Liu, and C. Z. Tan, Relationship between the frequency of the main LO mode of silica glass and angle of incidence, J Chem Phys, vol.119, pp.505-513, 2003.

L. Decin, T. Danilovich, and D. Gobrecht, Constraints on Metal Oxide and Metal Hydroxide Abundances in the Winds of AGB Stars: Potential Detection of FeO in R Dor

, Astrophys J, vol.855, p.113, 2018.

D. Gobrecht, I. Cherchneff, A. Sarangi, J. Plane, and S. T. Bromley, Dust formation in the oxygen-rich AGB star IK Tauri, Astron Astrophys, vol.585, p.6, 2016.

G. Lee, H. Ch, H. Giles, and S. T. Bromley, Dust in brown dwarfs and extra-solar planets: IV. Assessing TiO 2 and SiO nucleation for cloud formation modelling?, Astron Astrophys, vol.575, p.11, 2015.

K. Makasheva, C. Villeneuve-faure, and C. Bonafos, Dielectric Engineering of Nanostructured Layers to Control the Transport of Injected Charges in Thin Dielectrics, IEEE Trans Nanotechnol, vol.15, pp.839-887, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01763540

K. H. Ng, H. Liu, and R. M. Penner, Subnanometer Silver Clusters Exhibiting Unexpected Electrochemical Metastability on Graphite, Langmuir, vol.16, pp.4016-4039, 2000.

R. T. Downs and M. Hall-wallace, The American Mineralogist crystal structure database, Am Mineral, vol.88, pp.247-50, 2003.

O. K. Bates, Thermal Conductivity of Liquid Silicones, Ind Eng Chem, vol.41, pp.1966-1974, 1949.

C. Jäger, H. Mutschke, and F. Huisken, Iron-carbon nanoparticles prepared by CO2 laser pyrolysis of toluene and iron pentacarbonyl, Appl Phys A, vol.85, pp.53-62, 2006.

T. C. Kaspar, T. Droubay, S. A. Chambers, and P. S. Bagus, Spectroscopic Evidence for Ag(III) in Highly Oxidized Silver Films by X-ray Photoelectron Spectroscopy, J Phys Chem C, vol.114, pp.21562-71, 2010.

A. M. Ferraria and A. P. Carapeto, Botelho do Rego AM. X-ray photoelectron spectroscopy: Silver salts revisited, Vacuum, vol.86, pp.1988-91, 2012.

C. D. Wagner and A. Joshi, The auger parameter, its utility and advantages: a review, J Electron Spectrosc Relat Phenom, vol.47, pp.283-313, 1988.

T. L. Slager, B. J. Lindgren, A. J. Mallmann, and R. G. Greenler, Infrared spectra of the oxides and carbonates of silver, J Phys Chem, vol.76, pp.940-943, 1972.

B. M. Gatehouse, S. E. Livingstone, and R. S. Nyholm, The infrared spectra of some simple and complex carbonates, J Chem Soc Resumed, vol.636, p.3137, 1958.

L. Wang, J. Shi, J. Yu, and D. Yan, Synthesis of nanostructured mesoporous silica materials containing manganese, Nanostructured Mater, vol.10, pp.1289-99, 1998.

A. Corma, M. T. Navarro, and J. P. Pariente, Synthesis of an ultralarge pore titanium silicate isomorphous to MCM-41 and its application as a catalyst for selective oxidation of hydrocarbons, J Chem Soc Chem Commun, p.147, 1994.

T. N. Brusentsova, R. E. Peale, D. Maukonen, G. E. Harlow, J. S. Boesenberg et al., Far infrared spectroscopy of carbonate minerals, Am Mineral, vol.95, pp.1515-1537, 2010.

Z. Qu, S. Zhou, W. Wu, C. Li, and X. Bao, CO adsorption and correlation between CO surface coverage and activity/selectivity of preferential CO oxidation over supported Ag catalyst: an in situ FTIR study, Catal Lett, vol.101, pp.21-27, 2005.

K. Dejong, Investigations on silica-supported platinum-silver alloy particles by infrared spectra of adsorbed CO and N2, J Catal, vol.81, pp.67-76, 1983.

S. Duhan, Microstructure and Surface Morphology of Nanocrystalline Silver Silicates

, Acta Phys Pol A, vol.121, pp.636-644, 2012.

S. Duhan, N. Kishore, P. Aghamkar, and S. Devi, Preparation and characterization of sol-gel derived silver-silica nanocomposite, J Alloys Compd, vol.507, pp.101-105, 2010.

C. Racles, A. Nistor, and M. Cazacu, A silica-silver nanocomposite obtained by sol-gel method in the presence of silver nanoparticles, Open Chem, vol.11, 2013.

W. Gac, A. Derylo-marczewska, S. Pasieczna-patkowska, N. Popivnyak, and G. Zukocinski, The influence of the preparation methods and pretreatment conditions on the properties of Ag-MCM-41 catalysts, J Mol Catal Chem, vol.268, pp.15-23, 2007.

L. Hua, J. Chen, L. Ge, and S. N. Tan, Silver nanoparticles as matrix for laser desorption/ionization mass spectrometry of peptides, J Nanoparticle Res, vol.9, pp.1133-1141, 2007.

B. L. Walton and G. F. Verbeck, Soft-Landing Ion Mobility of Silver Clusters for Small-Molecule Matrix-Assisted Laser Desorption Ionization Mass Spectrometry and Imaging of Latent Fingerprints, Anal Chem, vol.86, pp.8114-8134, 2014.

J. Seku?a, J. Nizio?, W. Rode, and T. Ruman, Silver nanostructures in laser desorption/ionization mass spectrometry and mass spectrometry imaging, The Analyst, vol.140, pp.6195-209, 2015.

B. P. Koch and T. Dittmar, From mass to structure: an aromaticity index for high-resolution mass data of natural organic matter, Rapid Commun Mass Spectrom, vol.20, pp.926-958, 2006.

C. S. Hsu, V. V. Lobodin, R. P. Rodgers, A. M. Mckenna, and A. G. Marshall, Compositional Boundaries for Fossil Hydrocarbons, Energy Fuels, vol.25, pp.2174-2182, 2011.

B. Shukla and M. Koshi, Comparative study on the growth mechanisms of PAHs, Combust Flame, vol.158, pp.369-75, 2011.

M. Frenklach and J. Warnatz, Detailed Modeling of PAH Profiles in a Sooting Low-Pressure Acetylene Flame, Combust Sci Technol, vol.51, pp.265-83, 1987.

N. Hansen, M. Schenk, K. Moshammer, and K. Kohse-höinghaus, Investigating repetitive reaction pathways for the formation of polycyclic aromatic hydrocarbons in combustion processes, Combust Flame, vol.180, pp.250-61, 2017.

B. Shukla, A. Miyoshi, and M. Koshi, Role of methyl radicals in the growth of PAHs, J Am Soc Mass Spectrom, vol.21, pp.534-578, 2010.

S. Sinha, R. K. Rahman, and A. Raj, On the role of resonantly stabilized radicals in polycyclic aromatic hydrocarbon (PAH) formation: pyrene and fluoranthene formation from benzylindenyl addition, Phys Chem Chem Phys, vol.19, pp.19262-78, 2017.

, UV : UltraViolet XPS : X-ray Photoelectron Spectrometry : spectrométrie photoélectronique X

C. Tableau, 3: Populations d'ions métalliques observées par spectrométrie de masse L2MS avec AROMA pour les échantillons E4 (3 cycles de poussières) et E5

, Ag5Si Ag5Si Intensité <200 <500 <1000 <10000 > 10000