B. Lebret, L. Hairault, and E. Pasquinet, Utilisation de polymères ou de composites à base de siloxanes dans des capteurs chimiques pour la détection de composés nitrés

C. Barthet, P. Montméat, N. Eloy, and P. Prené, Detection of explosives vapours using a multi-quartz crystal microbalance system, Procedia Engineering, vol.5, pp.472-475, 2010.
DOI : 10.1016/j.proeng.2010.09.149

M. Guillemot, F. Dayber, P. Montméat, C. Barthet, and P. Prené, Detection of explosives vapours on quartz crystal microbalances: generation of very low-concentrated vapours for sensors calibration, Procedia Chemistry, vol.1, issue.1, pp.967-970, 2009.
DOI : 10.1016/j.proche.2009.07.241

L. Sang-hun, Theoretical and Experimental Characterization of Time-Dependent Signatures of Acoustic Wave Based Biosensors, Thesis at Georgia Institute of Technology, 2006.

X. Yang, X. Du, J. Shi, and B. Swanson, Molecular recognition and self-assembled polymer films for vapor phase detection of explosives, Talanta, vol.54, issue.3, pp.54-439, 2001.
DOI : 10.1016/S0039-9140(00)00542-7

G. Bunte, J. Hürttlen, H. Pontius, K. Hartlieb, and H. Krause, Gas phase detection of explosives such as 2,4,6-trinitrotoluene by molecularly imprinted polymers, Analytica Chimica Acta, vol.591, issue.1, pp.591-640, 2007.
DOI : 10.1016/j.aca.2007.02.014

M. P. Pina, I. Pellejero, M. A. Urbiztondo, J. Sesé, and J. Santamaría, Explosives detection using porous coatings, Proc. SPIE, 2011.

R. A. Stepnowski, D. Mcgill, and . Bubb, Detection of 2,4-dinitrotoluene using microcantilever sensors, Sensors and Actuators B, vol.99, pp.223-229, 2004.

W. Ruan, Y. Li, Z. Tan, L. Liu, K. Jiang et al., In situ synthesized carbon nanotube networks on a microcantilever for sensitive detection of explosive vapors, Sensors and Actuators B: Chemical, vol.176, pp.176-141, 2013.
DOI : 10.1016/j.snb.2012.10.026

Y. Gui, C. Xie, J. Xu, and G. Wang, Detection and discrimination of low concentration explosives using MOS nanoparticle sensors, Journal of Hazardous Materials, vol.164, issue.2-3, pp.1030-1035, 2009.
DOI : 10.1016/j.jhazmat.2008.09.011

K. Brudzewskia, S. Osowskia, and W. Pawlowski, Metal oxide sensor arrays for detection of explosives at sub-parts-per million concentration levels by the differential electronic nose, Sensors and Actuators B: Chemical, vol.161, issue.1, pp.161-528, 2012.
DOI : 10.1016/j.snb.2011.10.071

M. Amania, Y. Chu, K. L. Waterman, C. M. Hurley, M. J. Platek et al., Detection of triacetone triperoxide (TATP) using a thermodynamic based gas sensor, Sensors and Actuators B: Chemical, vol.162, issue.1, pp.162-169, 2012.
DOI : 10.1016/j.snb.2011.11.019

F. Berger, Mécanisme réactionnels d'interaction du SO 2 et du DEMP en surface de détecteurs de gaz à base de dioxyde d'étain, Thèse de l'Université de Franche-Comté, N° 447, 1995.

D. Kohl, Surface processes in the detection of reducing gases with SnO 2 -based devices, Sensors and Actuators, pp.71-113, 1989.

C. Tropis, Analyse et Optimisation des performances d'un capteur de gaz à base de SnO 2 nanoparticulaire : Application à la détection de CO et CO 2, 2009.

F. Parret, Méthode d'analyse sélective et quantitative d'un mélange gazeux à partir d'un microcapteur à oxyde métallique nanoparticulaire, Thèse de l'Institut National Polytechnique de Toulouse, 2006.

J. Sanchez, Conception d'une micro-colonne chromatographique couplée à un capteur à oxyde semi-conducteur : application à la détection sélective de HF, Thèse de l'Université de Franche-Comté, N° 1090, 2005.

B. Rivière, Optimisation du procédé de sérigraphie pour la réalisation de capteurs de gaz en couche épaisse : Étude de la compatibilité avec la technologie Microélectronique, Thèse de l'École Nationale Supérieure des Mines de Saint-Etienne, N° 326CD, 2004.

G. Korotcenkov, Metal oxides for solid-state gas sensors: What determines our choice?, Materials Science and Engineering: B, vol.139, issue.1, pp.1-23, 2007.
DOI : 10.1016/j.mseb.2007.01.044

Y. G. Choi, G. Sakai, K. Shimanoe, N. Miura, and N. Yamazoe, Wet process prepared thick film of WO 3 for NO 2 sensing, Sensors and Actuators B, pp.95-258, 2003.

R. E. Cavicchi, J. S. Suehle, K. J. Kreider, M. Gaitan, and P. Chaparala, Optimized temperature-pulse sequences for the enhancement of chemically specific response patterns from micro-hotplate gas sensors, Sensors and Actuators B, pp.33-142, 1996.

A. Heilig, N. Barsan, U. Weimer, M. Schweimer-berberich, J. W. Gardner et al., Gas identification by modulating temperatures of SnO 2 -based thick film sensors, Sensors and actuators B, pp.43-45, 1997.

S. R. Morrison, Selectivity in semiconductor gas sensors, Sensors and actuators, pp.425-440, 1987.

S. J. Gentry and T. Jones, The role of catalysis in solid-stade gas sensors, Sensors and actuators, pp.141-163, 1986.

F. Ménil, C. Lucat, and H. Debéda, The thick film route to selective gas sensors, Sensors and Actuators B, pp.24-25, 1995.

D. Jadsadapattarakul, C. Thanachayanont, J. Nukeaw, and T. Sooknoi, Improved selectivity, response time and recovery time by [0 1 0] highly preferred-orientation silicalite-1 layer coated on SnO 2 thin film sensor for selective ethylene gas detection, Sensors and Actuators B, pp.144-73, 2010.

M. Vilaseca, J. Coronas, A. Cirera, A. Cornet, J. R. Morante et al., Gas detection with SnO 2 sensors modified by zeolite films, Sensors and Actuators B, pp.124-99, 2007.

S. Tétin, Microcapteurs chimiques à base de micropoutres en silicium modifiées à l'aide de matériaux inorganiques microporeux, Thèse de l'Université de Bordeaux 1, p.3926, 2009.

M. Vilaseca, J. Coronas, A. Cirera, A. Cornet, J. R. Morante et al., Development and application of micromachined Pd/SnO 2 gas sensors with zeolite coatings, Sensors and Actuators B, pp.133-435, 2008.

M. Vilaseca, J. Coronas, A. Cirera, A. Cornet, J. R. Morante et al., Use of zeolite films to improve the selectivity of reactive gas sensors, Catalysis Today, vol.82, issue.1-4, pp.82-179, 2003.
DOI : 10.1016/S0920-5861(03)00230-X

O. Hugo, M. Sauvan, P. Benech, C. Pijolat, and F. Lefebvre, Gas separation with a zeolite filter, application to the selectivity enhancement of chemical sensors, Sensors and Actuators B, pp.67-235, 2000.

N. Perdreau, Application des méthodes d'analyse multivariables à la détection quantitative de gaz par microcapteurs à base de dioxyde d'étain, Thèse de l'École des Mines de St-Etienne, 2000.

J. Figueras, C. Santander, and . Cané, Sub-ppm gas sensor detection via spiral µ-preconcentrator, Sensors and actuators B, vol.132, pp.149-154, 2008.

C. Pijolat, M. Camara, J. Courbat, J. Viricelle, D. Briand et al., Application of carbon nano-powders for a gas micro-preconcentrator, Sensors and Actuators B: Chemical, vol.127, issue.1, pp.179-185, 2007.
DOI : 10.1016/j.snb.2007.07.029
URL : https://hal.archives-ouvertes.fr/emse-00431516

E. Hadji-malick and C. , Développement d'un micro-préconcentrateur pour la détection de substances chimiques à l'état de trace en phase gaz, Thèse de l'École Nationale Supérieure des Mines de Saint-Étienne, N° 556 GP, 2009.

S. Zampolli, I. Elmi, F. Mancarella, P. Betti, E. Dalcanale et al., Realtime monitoring of sub-ppb concentrations of aromatic volatiles with a MEMS enabled miniaturized gas chromatograph, Sensors and Actuators B, pp.141-322, 2009.

A. Sklorz, S. Janßen, and W. Lang, Application of a miniaturised packed gas chromatography column and a SnO 2 gas detector for analysis of low molecular weight hydrocarbons with focus on ethylene detection, Sensors and Actuators B, 2012.

H. Lahlou, Design, fabrication and characterization of a gas preconcentrator based on thermal programmed adsorption/desorption for gas phase microdetection systems, Thesis at the University Rovira I Virgili, pp.153-2012, 2011.

B. Alfeeli, Chemical Micro Preconcentrators Development for Micro Gas Chromatography Systems, Thesis at Virginia Polytechnic Institute and State University, 2010.

Y. Fu, Synthesis and Characterization of Molecularly Imprinted Polymers and Their Application in Preconcentrators for Gas Phase Sensors, 2003.

I. Voiculescu, M. Zaghloul, and N. Narasimhan, Microfabricated chemical preconcentrators for gas-phase microanalytical detection systems, TrAC Trends in Analytical Chemistry, vol.27, issue.4, pp.327-343, 2008.
DOI : 10.1016/j.trac.2008.01.016

K. Dettmer and W. Engewald, Adsorbent Materials Commonly Used in Air Analysis for

M. Kim and S. Mitra, A microfabricated microconcentrator for sensors andgas chromatography, Journal of Chromatography A, vol.996, issue.1-2, pp.1-11, 2003.
DOI : 10.1016/S0021-9673(03)00560-0

C. Saridara, S. Ragunath, Y. Pu, and S. Mitra, Methane pre-concentration in a microtrap using multiwalled carbon nanotubes as sorbents, Analytica Chimica Acta, pp.677-50, 2010.

C. Thammakhet, P. Thavarungkul, R. Brukh, S. Mitra, and P. Kanatharana, Microtrap modulated flame ionization detector for on-line monitoring of methane, Journal of Chromatography A, vol.1072, issue.2, pp.1072-243, 2005.
DOI : 10.1016/j.chroma.2005.03.041

E. H. Camara, P. Breuil, D. Briand, L. Guillot, C. Pijolat et al., Micro gas preconcentrator in porous silicon filled with a carbon absorbent, Sensors and Actuators B: Chemical, vol.148, issue.2, pp.148-610, 2010.
DOI : 10.1016/j.snb.2010.05.054
URL : https://hal.archives-ouvertes.fr/hal-00508020

J. W. Russell, Analysis of air pollutants using sampling tubes and gas chromatography, Environmental Science & Technology, vol.9, issue.13, pp.1175-1178, 1975.
DOI : 10.1021/es60111a011

R. H. Brown and C. J. Purnell, Collection and analysis of trace organic vapour pollutants in ambient atmospheres, Journal of Chromatography A, vol.178, issue.1, pp.178-79, 1979.
DOI : 10.1016/S0021-9673(00)89698-3

E. D. Pellizzar, J. E. Bunch, R. E. Berkley, and J. Mcrae, Collection and Analysis of Trace Organic Vapor Pollutants in Ambient Atmospheres. the Performance of a Tenax gc Cartridge Sampler for Hazardous Vapors, Analytical Letters, vol.46, issue.12, pp.9-45, 1976.
DOI : 10.1080/00032717608059080

C. Inc, Product Catalog, 2010.

W. A. Groves, E. T. Zellers, and G. C. Frye, Analyzing organic vapors in exhaled breath using a surface acoustic wave sensor array with preconcentration: Selection and characterization of the preconcentrator adsorbent, Analytica Chimica Acta, vol.371, issue.2-3, pp.371-131, 1998.
DOI : 10.1016/S0003-2670(98)00294-3

J. W. Grate, N. C. Anheier, and D. L. Baldwin, Progressive Thermal Desorption of Vapor Mixtures from a Preconcentrator with a Porous Metal Foam Internal Architecture and Variable Thermal Ramp Rates, Analytical Chemistry, vol.77, issue.6, pp.77-1867, 2005.
DOI : 10.1021/ac049142s

C. Lu and E. T. Zellers, A Dual-Adsorbent Preconcentrator for a Portable Indoor-VOC Microsensor System, Analytical Chemistry, vol.73, issue.14, pp.73-3449, 2001.
DOI : 10.1021/ac001524k

C. Lu and E. T. Zellers, Multi-adsorbent preconcentrator/focusing module for

Q. Cai, J. Park, D. Heldsinger, M. Hsieh, and E. T. Zellers, Vapor recognition with an integrated array of polymer-coated flexural plate wave sensors, Sensors and Actuators B: Chemical, vol.62, issue.2, pp.62-121, 2000.
DOI : 10.1016/S0925-4005(99)00381-0

S. Mitra and C. Yun, Continuous gas chromatographic monitoring of low concentration sample streams using an on-line microtrap, Journal of Chromatography A, vol.648, issue.2, pp.415-421, 1993.
DOI : 10.1016/0021-9673(93)80424-7

D. Liaw, K. Wang, Y. Huang, K. Lee, J. Lai et al., Advanced polyimide materials: Syntheses, physical properties and applications, Progress in Polymer Science, pp.37-907, 2012.
DOI : 10.1016/j.progpolymsci.2012.02.005

R. P. Lewis, A. G. Manginell, V. M. Baca, J. R. Hietala, H. Wendt et al., Gas phase chemical detection Towards a GC-based microsystem for benzene and 1,3 butadiene detection: Pre-concentrator characterization, Sensors and Actuators B, vol.84, issue.156, pp.680-688, 2011.

H. Lahlou, X. Vilanova, V. Fierro, A. Celzard, E. Llobet et al., Preparation and characterisation of a planar pre-concentrator for benzene based on different activated carbon materials deposited by air-brushing, Sensors and Actuators B: Chemical, vol.154, issue.2, pp.154-213, 2011.
DOI : 10.1016/j.snb.2009.12.040

A. Fierro, I. Celzard, C. Gracia, and . Cane, A planar micro-concentrator/injector for low power consumption microchromatographic analysis of benzene and 1,3 butadiene, pp.18-489, 2012.

B. Alfeeli, L. T. Taylor, and M. Agah, Evaluation of Tenax TA thin films as adsorbent material for micro preconcentration applications, Microchemical Journal, vol.95, issue.2, pp.95-259, 2010.
DOI : 10.1016/j.microc.2009.12.011

B. Alfeeli, V. Jain, R. K. Johnson, F. L. Beyer, J. R. Heflin et al., Characterization of poly(2,6-diphenyl-p-phenyleneoxide) films as adsorbent for microfabricated preconcentrators, Microchemical Journal, pp.98-240, 2011.

A. B. Dow and W. Lang, A micromachined preconcentrator for ethylene monitoring system, Sensors and Actuators B, vol.151, issue.1, pp.304-307, 2010.

A. B. Dow, A. Sklorz, and W. Lang, A microfluidic preconcentrator for enhanced monitoring of ethylene gas, Sensors and Actuators A: Physical, vol.167, issue.2, pp.226-230, 2010.
DOI : 10.1016/j.sna.2011.01.019

E. H. Camara, P. Breuil, D. Briand, L. Guillot, C. Pijolat et al., Micro gas preconcentrator in porous silicon filled with a carbon absorbent, Sensors and Actuators B: Chemical, vol.148, issue.2, pp.610-619, 2010.
DOI : 10.1016/j.snb.2010.05.054
URL : https://hal.archives-ouvertes.fr/hal-00508020

W. Tian, S. W. Pang, C. Lu, and E. T. Zellers, Microfabricated preconcentrator-focuser for a micro scale gas chromatograph, Journal of Microelectromechanical Systems, pp.12-264, 2003.

W. Tian, H. K. Chan, S. W. Pang, C. Lip, and E. T. Zellers, High sensitivity three-stage microfabricated preconcentrator-focuser for micro gas chromatography, TRANSDUCERS '03. 12th International Conference on Solid-State Sensors, Actuators and Microsystems. Digest of Technical Papers (Cat. No.03TH8664), pp.131-134, 2003.
DOI : 10.1109/SENSOR.2003.1215270

M. Li, S. Biswas, M. H. Nantz, R. M. Higashi, and X. Fu, A microfabricated preconcentration device for breath analysis, Sensors and Actuators B: Chemical, vol.180
DOI : 10.1016/j.snb.2012.07.034

W. Tian, H. K. Chan, C. Lu, S. W. Pang, and E. T. Zellers, Multiple-Stage Microfabricated Preconcentrator-Focuser for Micro Gas Chromatography System, IEEE Journal of Microelectromechanical systems, pp.14-498, 2005.

W. Tian, S. W. Pang, and E. T. Zellers, Microelectromechanical heating apparatus and fluid preconcentrator device, p.914220, 2005.

E. T. Zellers, S. Reidy, R. A. Veeneman, R. Gordenker, W. H. Steinecker et al., An integrated micro-analytical system for complex vapor mixtures, Solid-State Sensors, Actuators and Microsystems Conference, pp.1491-1496, 2007.

T. Sukaew, H. Chang, G. Serrano, and E. T. Zellers, Multi-stage preconcentrator/focuser module designed to enable trace level determinations of trichloroethylene in indoor air with a microfabricated gas chromatograph, The Analyst, vol.57, issue.8, pp.136-1664, 2011.
DOI : 10.1039/c0an00780c

A. Rydosz, W. Maziarz, T. Pisarkiewicz, K. Domanski, and P. Grabiec, A gas micropreconcentrator for low level acetone measurements, Microelectronics Reliability, pp.52-2640, 2012.

V. Fierro, V. Torné-fernandez, D. Montané, and A. Celzard, Adsorption of phenol onto activated carbons having different textural and surface properties Microporous and Mesoporous Materials, pp.111-276, 2008.

H. Lahlou, X. Vilanova, and X. Correig, Gas phase micro-preconcentrators for benzene monitoring: A review, Sensors and Actuators B: Chemical, vol.176, pp.198-210, 2012.
DOI : 10.1016/j.snb.2012.10.004

J. Figueras, C. Santander, and . Cané, Influence of the internal gas flow distribution on the efficiency of a µ-preconcentrator, Sensors and Actuators B, vol.135, issue.1, pp.52-56, 2008.

C. Duran, X. Vilanova, J. Brezmes, E. Llobet, and X. Correig, Thermal desorption preconcentrator based system to assess carbon dioxide contamination by benzene, Sensors and Actuators B, pp.131-85, 2008.

S. Reidy, D. George, M. Agah, and R. Sacks, Temperature-Programmed GC Using Silicon Microfabricated Columns with Integrated Heaters and Temperature Sensors, Analytical Chemistry, vol.79, issue.7, pp.79-2911, 2007.
DOI : 10.1021/ac062148s

S. Reidy, G. Lambertus, J. Reece, and R. Sacks, High-Performance, Static-Coated Silicon Microfabricated Columns for Gas Chromatography, Analytical Chemistry, vol.78, issue.8, pp.78-2623, 2006.
DOI : 10.1021/ac051846u

S. Ali, M. Ashraf-khorassani, L. T. Taylor, and M. Agah, MEMS-based semi-packed gas chromatography columns, Sensors and Actuators B: Chemical, vol.141, issue.1, pp.141-309, 2009.
DOI : 10.1016/j.snb.2009.06.022

J. Sanchez, A. Schmitt, F. Berger, and C. Mavon, Silicon-Micromachined Gas Chromatographic Columns for the Development of Portable Detection Device, Article ID 409687, pp.10-1155, 2010.
DOI : 10.1016/j.snb.2004.09.017
URL : https://hal.archives-ouvertes.fr/hal-00662258

J. Sanchez, F. Berger, W. Daniau, P. Blind, M. Fromm et al., Development of a gas detection micro-device for hydrogen fluoride vapours, Sensors and Actuators B: Chemical, vol.113, issue.2, pp.1017-1024, 2006.
DOI : 10.1016/j.snb.2005.11.025

J. Sanchez, F. Berger, M. Fromm, and M. Nadal, A selective gas detection micro-device for monitoring the volatile organic compounds pollution, Sensors and Actuators B: Chemical, vol.119, issue.1, pp.227-233, 2006.
DOI : 10.1016/j.snb.2005.12.028
URL : https://hal.archives-ouvertes.fr/hal-00516125

P. Arpino, A. Prévot, J. Serpinet, J. Tranchant, A. Vergnol et al., Manuel pratique de chromatographie en phase gazeuse, p.4, 1995.

S. Constantin and R. Freitag, Preparation of stationary phases for open-tubular capillary electrochromatography using the sol???gel method, Journal of Chromatography A, vol.887, issue.1-2, pp.253-263, 2000.
DOI : 10.1016/S0021-9673(00)00463-5

G. Wiranto, M. R. Haskard, D. E. Mulcahy, D. E. Davey, and E. F. Dawes, Microengineered open tubular columns for GC analysis, Proceedings of SPIE?The International Society for Optical Engineering, pp.3891-168, 1999.
DOI : 10.1117/12.364435

G. Serrano, S. M. Reidy, and E. T. Zellers, Assessing the reliability of wall-coated microfabricated gas chromatographic separation columns, Sensors and Actuators B: Chemical, vol.141, issue.1, pp.141-217, 2009.
DOI : 10.1016/j.snb.2009.05.003

V. R. Reid, M. Stadermann, O. Bakajin, and R. E. Synovec, High-speed, temperature programmable gas chromatography utilizing a microfabricated chip with an improved carbon nanotube stationary phase, Talanta, vol.77, issue.4, pp.77-1420, 2009.
DOI : 10.1016/j.talanta.2008.09.023

. Bakajin, Ultrafast Gas Chromatography on Single-Wall Carbon Nanotube Stationary Phases in Microfabricated Channels, Anal. Chem, vol.78, pp.5639-5644, 2006.

S. Comte, Couplage de la chromatographie gazeuse inverse à un générateur d'humidité ? étude de l'hydrophilie de surface de solides divisés et des limites de la technique, Thèse de l'Institut National Polytechnique de Toulouse, 2004.

. Siemieniewska, Reporting Physisorption Data for Gas/Solids Systems with special reference to the determination of surface area and porosity, Pure & Appl. Chem, vol.57, issue.4, pp.603-619, 1985.

J. A. Widegren and T. J. Bruno, Gas Saturation Vapor Pressure Measurements of

M. Slasli, Modélisation de l'adsorption par les charbons microporeux : Approches théorique et expérimentale, 2002.

L. Meljac, Étude d'un procédé d'imprégnation de fibres de carbone activées Modélisation des interactions entre ces fibres et le sulfure d'hydrogène, Thèse de l'École Nationale Supérieure des Mines de Saint Etienne, 2004.

V. Fierro, V. Torne-fernandez, and A. Celzard, Methodical study of the chemical activation of Kraft lignin with KOH and NaOH, Microporous and Mesoporous Materials, vol.101, issue.3, pp.419-431, 2007.
DOI : 10.1016/j.micromeso.2006.12.004

B. Alfeeli, V. Jain, R. K. Johnson, F. L. Beyer, J. R. Heflin et al., Characterization of poly(2,6-diphenyl-p-phenylene oxide) films as adsorbent for microfabricated preconcentrators, Microchemical Journal, vol.98, issue.2, pp.98-240, 2011.
DOI : 10.1016/j.microc.2011.02.006

S. A. Idriss, C. Robertson, M. A. Morris, and L. T. Gibson, Analytical Methods, A comparative study of selected sorbents for sampling of aromatic VOCs from indoor air, Anal. Methods, issue.2, pp.1803-1809, 2010.

A. Benoit-clausse, Coadsorption de composés organochlorés par une faujasite Y hydrophobe/organophile dans un contexte de dépollution de l'air et de l'eau, Thèse de l, 1997.

. Santamaria, Zeolite films and membranes. Emerging applications, Microporous and Mesoporous Materials, vol.144, pp.19-27, 2011.

J. U. Keller and E. Robens, A note on sorption measuring instruments, Journal of thermal analysis and calorimetry, pp.71-108, 2003.

J. C. Groen, L. A. Peffer, and J. Perez-ram?rez, Pore size determination in modified microand mesoporous materials. Pitfalls and limitations in gas adsorption data analysis, Microporous and Mesoporous Materials, pp.60-61, 2003.

A. Saito and H. C. Foley, Argon porosimetry of selected molecular sieves: experiments and examination of the adapted Horvath-Kawazoe model, Microporous Materials, vol.3, issue.4-5, pp.531-542, 1995.
DOI : 10.1016/0927-6513(94)00063-2

L. S. Cheng and R. T. Yang, Improved Horvath???Kawazoe equations including spherical pore models for calculating micropore size distribution, Chemical Engineering Science, vol.49, issue.16, pp.49-2599, 1994.
DOI : 10.1016/0009-2509(94)E0054-T

V. Bernardet, Influence de la symétrie et de la taille de la molécule adsorbée sur le processus d'adsorption des composés éthyléniques sur une zéolithe de topologie MFI, Thèse de l, p.107051, 2005.

S. Brunauer, L. S. Deming, W. E. Deming, E. Teller, and J. Amer, On a Theory of the van der Waals Adsorption of Gases, Journal of the American Chemical Society, vol.62, issue.7, pp.1723-1732, 1940.
DOI : 10.1021/ja01864a025

D. Charrière, Caractérisation de la sorption de gaz sur les charbons Application au stockage géologique du dioxyde de carbone dans les veines de charbon, 2009.

N. Passe-courtin, S. Altenor, D. Cossement, C. Jean-marius, and S. Gaspard, Comparison of parameters calculated from the BET and Freundlich isotherms obtained by nitrogen adsorption on activated carbons: A new method for calculating the specific surface area, Microporous and Mesoporous Materials, pp.111-517, 2008.

K. Sakodynskii, L. Panina, and N. Klinskaya, A study of some properties of Tenax, a porous polymer sorbent, Chromatographia, vol.1, issue.7, pp.339-344, 1974.
DOI : 10.1007/BF02269347

C. Thibault, Impression de biomolécules par lithographie douce, applications pour les biopuces, de l'échelle micrométrique à nanométrique, p.200042, 2007.

P. Voisin, Lithographie de nouvelle génération par nanoimpression assistée par UV : étude et développement de matériaux et procédés pour l'application micro-électronique, 2007.

P. Tabeling, Introduction à la microfluidique, 2003.

S. Mir, Conception des microsystèmes sur silicium, Hermes Science, 2002.

W. Chu and . Martin, Microfabricated tweezers with a large griping force and a large range of motion, Thesis at Case Western Reserve University, p.951090, 1994.

F. Laermer and A. Schilp, Method of anisotropically etching silicon, 1996.

P. Favaro, Soudure moléculaire silicium/verre développement de procédés applicables aux microsystèmes, Thèse de l'Université de, 2000.

T. Rogers and J. Kowal, Selection of glass, anodic bonding conditions and material compatibility for silicon-glass capacitive sensors, Sensors and Actuators A, pp.46-47, 1995.

M. A. Urbiztondo, I. Pellejero, M. Villarroya, J. Sesé, M. P. Pina et al., Zeolite-modified cantilevers for the sensing of nitrotoluene vapors, Sensors and Actuators B: Chemical, vol.137, issue.2, pp.608-616, 2009.
DOI : 10.1016/j.snb.2009.01.047
URL : https://hal.archives-ouvertes.fr/hal-00352822

]. C. Pijolat, M. Camara, J. Courbat, J. Viricelle, D. Briand et al., Application of carbon nano-powders for a gas micro-preconcentrator, Sensors and Actuators B: Chemical, vol.127, issue.1, pp.179-185, 2007.
DOI : 10.1016/j.snb.2007.07.029
URL : https://hal.archives-ouvertes.fr/emse-00431516

]. T. Sukaew, H. Chang, G. Serrano, and E. T. Zellers, Multi-stage preconcentrator/focuser module designed to enable trace level determinations of trichloroethylene in indoor air with a microfabricated gas chromatograph, The Analyst, vol.57, issue.8, pp.136-1664, 2011.
DOI : 10.1039/c0an00780c

J. Sanchez, A. Schmitt, F. Berger, and C. Mavon, Silicon-Micromachined Gas Chromatographic Columns for the Development of Portable Detection Device, Journal of Sensors, vol.100, issue.1-3, 2010.
DOI : 10.1016/j.snb.2004.09.017
URL : https://hal.archives-ouvertes.fr/hal-00662258

]. Paquien, Étude des propriétés rhéologiques et de l'´etat de dispersion de suspensions PDMS/silice, Thèse de l'Institut National des Sciences Appliquées de Lyon, N° d'ordre, pp.3-0067, 2003.

J. Sanchez, F. Berger, M. Fromm, and M. Nadal, Use of a chromatographic column to improve the selectivity of the SnO 2 gas sensors: first approach towards a miniaturised device and selective with hydrogen fluoride vapours, Sensors and Actuators B, vol.106, pp.823-831, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00516131

B. Alfeeli, Chemical Micro Preconcentrators Development for Micro Gas Chromatography Systems, Thesis at Virginia Polytechnic Institute and State University, 2010.

A. B. Dow and W. Lang, A micromachined preconcentrator for ethylene monitoring system, Sensors and Actuators B, vol.151, issue.1, pp.304-307, 2010.

S. Mitra, Y. H. Xu, W. Chen, and A. Lai, Characteristics of microtrap-based injection systems for continuous monitoring of volatile organic compounds by gas chromatography, Journal of Chromatography A, vol.727, issue.1, pp.727-111, 1996.
DOI : 10.1016/0021-9673(95)01062-9

P. R. Lewis, P. Manginell, D. R. Adkins, R. J. Kottenstette, D. R. Wheeler et al., Recent Advancements in the Gas-Phase MicroChemLab, IEEE Sensors Journal, vol.6, issue.3, pp.784-796, 2006.

J. Figueras, C. Santander, and . Cané, Sub-ppm gas sensor detection via spiral µ-preconcentrator, Sensors and actuators B, vol.132, pp.149-154, 2008.

J. Celzard and . Bellat, Selection and characterization of adsorbents for the analysis of an explosive-related molecule traces in the air, Sensors and Actuators B, vol.176, pp.124-131, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01296295

]. H. Lahlou, J. Sanchez, X. Vilanova, F. Berger, X. Correig et al., Towards a GC-based microsystem for benzene and 1,3 butadiene detection: Pre-concentrator characterization, Sensors and Actuators B: Chemical, vol.156, issue.2, pp.156-680, 2011.
DOI : 10.1016/j.snb.2011.02.018

L. Li, Effects of activated carbon surface chemistry and pore structure on the adsorption of trace organic contaminants from aqueous solution, 2002.

]. W. Chen, L. Duan, and D. Zhu, Adsorption of Polar and Nonpolar Organic Chemicals to Carbon Nanotubes, Environmental Science & Technology, vol.41, issue.24, pp.41-8295, 2007.
DOI : 10.1021/es071230h

]. F. Cosnier, A. Celzard, G. Furdin, D. Begin, and J. F. Mareche, Influence of Water on the Dynamic Adsorption of Chlorinated VOCs on Active Carbon: Relative Humidity of the Gas Phase versus Pre-Adsorbed Water, Adsorption Science & Technology, vol.51, issue.3, pp.24-215, 2006.
DOI : 10.1260/026361706778812871