«. Spri--openplex and -. ,

D. Sur,

L. Laplatine, « Spatial resolution of prism-based surface plasmon resonance microscopy, 2014.

, Enquète nationale de prévalence des infections nosocomiales et des traitements anti-infectieux en établissement de santé, p.2012

. Résultats, , 2013.

«. Ifremer and . Toxi, Infection Alimentaire Collective (TIAC) -Evolution des déclarations, 2013.

C. Lietard, B. Lejeune, M. Rothan-tondeur, M. H. Metzger, and J. M. Thiolet,

. Coignard, Enquête nationale de prévalence des infections nosocomiales

, Résultats dans la population des sujets de 65 ans et plus, France, pp.344-348, 2006.

E. Scallan, « Foodborne Illness Acquired in the United States -Major Pathogens, Emerging Infectious Diseases journal, vol.17, issue.1, pp.1-21, 2011.

H. Raether, Surface Plasmon on smooth and rough surfaces and on grating, 1988.

«. Prestodiag, Informations about the detection kits comercialized by Prestodiag© », SalmoPrestoPE, 2016.

L. Laplatine, « Spatial resolution in prism-based surface plasmon resonance microscopy, Optics Express, vol.22, pp.22771-22785, 2014.

V. Chabot, Y. Miron, M. Grandbois, and P. G. Charette, « Long range surface plasmon resonance for increased sensitivity in living cell biosensing through greater probing depth, 2012.

A. W. Peterson, M. Halter, A. Tona, and A. L. Plant, « High resolution surface plasmon resonance imaging for single cells, BMC Cell Biology, vol.15, pp.1-14, 2014.

W. B. Whitman, D. C. Coleman, W. J. Wiebe, and . Prokaryotes, The unseen majority, Proc Natl Acad Sci, vol.95, p.6578, 1998.

J. C. Venter, « Environmental Genome Shotgun Sequencing of the Sargasso Sea, Science, vol.304, p.66, 2004.

N. Fierer and R. B. Jackson, « The diversity and biogeography of soil bacterial communities, Proc Natl Acad Sci U S A, vol.103, issue.3, p.626, 2006.

J. Verran, R. L. Taylor, and G. C. Lees, « Bacterial adhesion to inert thermoplastic surfaces, Journal of Materials Science: Materials in Medicine, vol.7, issue.10, pp.597-601, 1996.

V. Torsvik, L. Øvreås, and T. F. Thingstad, Prokaryotic Diversity--Magnitude, Dynamics, and Controlling Factors, vol.296, p.1064, 2002.

M. Hill, « Intestinal flora and endogenous vitamin synthesis », European journal of cancer prevention : the official journal of the European Cancer Prevention Organisation (ECP), vol.6, pp.43-48, 1997.

M. J. Albert, V. I. Mathan, and S. J. Baker, « Vitamin B12 synthesis by human small intestinal bacteria, Nature, vol.283, p.781, 1980.

T. D. Luckey, « Introduction to intestinal microecology », Am J Clin Nutr, vol.25, pp.1292-1294

L. A. Mermel, « Guidelines for the Management of Intravascular Catheter-Related Infections, Infection Control & Hospital Epidemiology, vol.22, issue.4, pp.222-242, 2001.

, Infections nosocomiales », Inserm -La science pour la santé

D. Sur,

. Raisin, Enquète nationale de prévalence des infections nosocomiales et des traitements anti-infectieux en établissement de santé, p.2012

. Résultats, , 2013.

A. Al-ahmad, « In vivo study of the initial bacterial adhesion on different implant materials, Archives of Oral Biology, vol.58, issue.9, pp.1139-1147, 2013.

M. M. Tunney, G. Ramage, S. Patrick, J. R. Nixon, P. G. Murphy et al., Antimicrobial Susceptibility of Bacteria Isolated from Orthopedic Implants following Revision Hip Surgery », Antimicrob. Agents Chemother, vol.42, issue.11, p.3002, 1998.

C. Wagner, S. Aytac, G. M. Hänsch, and . Biofilm, Growth on Implants: Bacteria Prefer Plasma Coats, vol.34, pp.811-817, 2011.

G. K. Adak, S. M. Meakins, H. Yip, B. A. Lopman, and S. J. O'brien, Disease risks from foods, England and Wales, vol.11, pp.365-372, 1996.

M. D. Kirk, Foodborne Disease in Australia : The OzFoodNet Experience », Clinical Infectious Diseases: Oxford Journals, vol.47, pp.392-400, 2008.

E. C. Todd, « Costs of acute bacterial foodborne disease in Canada and the United States, International Journal of Food Microbiology, vol.9, issue.4, pp.313-326, 1989.

W. G. Scott, H. M. Scott, R. J. Lake, and M. G. Baker, Economic cost to New Zealand of foddborne infectious disease, vol.113, pp.281-284, 2000.

M. W. Hahn, « Isolation of Novel Ultramicrobacteria Classified as Actinobacteria from Five Freshwater Habitats in Europe and Asia, Appl. Environ. Microbiol, vol.69, issue.3, p.1442, 2003.

, -avril 2011 | Anses -Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail, « Fiche de description de danger biologique transmissible par les aliments

, Fiche de description des dangers biologiques transmissibles par les aliments / Listeria monocytogenes. ANSES (Agence Nationale de Securité Sanitaire de l'Alimentation), ANSES, 2011.

R. H. Orsi and M. Wiedmann, Characteristics and distribution of Listeria spp., including Listeria species newly described since, Applied Microbiology and Biotechnology, vol.100, pp.5273-5287, 2009.

L. Escherichia and . Entérohémorragiques, EHEC) | Anses -Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail

D. Sur,

A. S. Microbiology, D. H. Bergey, and R. ,

. Breed, Bergey's manual of determinative bacteriology, 1957.

M. «-gélose, Conkey -Milieux de culture -Milieux de culture bactério. -Dominique DUTSCHER -Matériel de laboratoire »

, Milieu chromogénique pour la détection d'E.coli O157:H7 », bioMérieux France

D. Sur,

G. J. Hucker, H. J. Conn, «. Methods, and . Gram-staining-», , p.38, 1923.

G. O. Aspinall, M. A. Monteiro, H. Pang, E. J. Walsh, and A. P. Moran, Lipopolysaccharide of the Helicobacter pylori Type Strain NCTC 11637 (ATCC 43504): Structure of the O Antigen Chain and Core Oligosaccharide Regions, vol.35, pp.2489-2497, 1996.

R. Prager, U. Strutz, A. Fruth, and H. Tschape, « Subtyping of pathogenic Escherichia coli strains using flagellar (H)-antigens: serotyping versus fliC polymorphisms, International journal of medical microbiology, vol.292, p.477, 2003.

C. Fraser, W. P. Hanage, and B. G. Spratt, « Recombination and the Nature of Bacterial Speciation, Science, vol.315, issue.5811, p.476, 2007.

C. Buchrieser, C. Rusniok, ;. Kunst, and P. Cossart, The Listeria Consortium

. Glaser, Comparison of the genome sequences of Listeria monocytogenes and Listeria innocua: clues for evolution and pathogenicity, FEMS Immunology & Medical Microbiology, vol.35, issue.3, pp.207-213, 2003.

, « Code du travail -Article R4421-3 | Legifrance

M. Godin, « Using buoyant mass to measure the growth of single cells », Nature Methods, vol.7, p.387

. Escherichia, Migula) Castellani and Chalmers ATCC ® 11775&tra

D. Sur,

, /products/all/11775.aspx?geo_country=fr

K. P. Lemon, D. E. Higgins, and R. Kolter, « Flagellar motility is critical for Listeria monocytogenes biofilm formation, Journal of bacteriology, vol.189, pp.4418-4424, 2007.

J. M. Farber and P. I. Peterkin, Listeria monocytogenes, vol.55, pp.476-511

S. Kathariou, C. Mizumoto, R. Kanenaka, R. D. Allen, and A. K. Fok, « Repression of motility and flagellin production at 37 °C is stronger in Listeria monocytogenes than in the nonpathogenic species Listeria innocua », Can. J. Microbiol, vol.41, issue.7, pp.572-577, 1995.

K. Lee, M. Runyon, T. J. Herrman, R. Phillips, and J. Hsieh, « Review of Salmonella detection and identification methods: Aspects of rapid emergency response and food safety, Food Control, vol.47, pp.264-276, 2015.

F. Ricci, G. Volpe, L. Micheli, and G. Palleschi, A review on novel developments and applications of immunosensors in food analysis, vol.605, pp.111-129, 2007.

H. Sharma and R. Mutharasan, Review of biosensors for foodborne pathogens and toxins, vol.183, pp.535-549, 2013.

N. Durán and P. D. Marcato, « Nanobiotechnology perspectives. Role of nanotechnology in the food industry: a review », International Journal of Food Science & Technology, vol.48, issue.6, pp.1127-1134

J. L. Young and D. E. Soper, Urinalysis and Urinary Tract Infection: Update for

. Clinicians, Infectious Diseases in Obstetrics and Gynecology, 2001.

D. Sur,

J. A. Simerville, W. C. Maxted, J. J. Pahira, and . Urinalysis, Comprehensive Review, vol.71, issue.6, pp.1153-1162, 2005.

A. L. Flores-mireles, J. N. Walker, M. Caparon, and S. J. Hultgren, « Urinary tract infections: epidemiology, mechanisms of infection and treatment options », Nature reviews. Microbiology, vol.13, issue.5, pp.269-284, 2015.

S. Artault, J. L. Blind, J. Delaval, Y. Dureuil, and N. Gaillard, « Detecting Listeria monocytogenes in food, International Food Hygiene, vol.12, p.23, 2001.

V. I. Trukhachev, O. V. Sycheva, N. Z. Zlydnev, and P. N. Mitkalov, Milking technology and milk quality », Russian Agricultural Sciences, vol.34, pp.348-349, 2008.

«. Dendridiag®-upw-» and . Biocontrol,

J. A. Hudson, R. J. Lake, M. G. Savill, P. Scholes, and R. E. Mccormick, « Rapid detection of Listeria monocytogenes in ham samples using immunomagnetic separation followed by polymerase chain reaction », Journal of Applied Microbiology, vol.90, issue.4, pp.614-621, 2001.

K. Hibi, « Combination of immunomagnetic separation with flow cytometry for detection of Listeria monocytogenes », Analytica Chimica Acta, pp.158-163, 2006.

C. G. Leon-velarde, L. Zosherafatein, and J. A. Odumeru, « Application of an automated immunomagnetic separation-enzyme immunoassay for the detection of Salmonella enterica subspecies enterica from poultry environmental swabs, Journal of Microbiological Methods, 2009.

L. G. Goeller and M. R. Riley, « Discrimination of Bacteria and Bacteriophages by Raman Spectroscopy and Surface-Enhanced Raman Spectroscopy, Applied Spectroscopy, vol.61, issue.7, pp.679-685, 2007.

J. Choi, Y. Kim, and B. Oh, « The development of protein chip using protein G for the simultaneous detection of various pathogens, 2008.

A. Touron, T. Berthe, B. Pawlak, and F. Petit, « Detection of Salmonella in environmental water and sediment by a nested-multiplex polymerase chain reaction assay, 2005.

G. M. Matar, P. S. Hayes, W. F. Bibb, and B. Swaminathan, « Listeriolysin O-Based Latex Agglutination Test for the Rapid Detection of Listeria monocytogenes in Foods

P. T. Feldsine, A. H. Lienau, R. L. Forgey, and R. D. Calhoon, « Visual immunoprecipitate assay (VIP) for Listeria monocytogenes and related Listeria species detection in selected foods: collaborative study. », Journal of AOAC International, vol.80, issue.4, pp.791-805, 1997.

S. Perelle, F. Dilasser, B. Malorny, J. Grout, J. Hoorfar et al., « Comparison of PCR-ELISA and LightCycler real-time PCR assays for detecting Salmonella spp. in milk and meat samples, Molecular and Cellular Probes, vol.18, issue.6, pp.409-420, 2004.

K. A. Stevens and L. Jaykus, « Bacterial Separation and Concentration from Complex Sample Matrices: A Review, Critical Reviews in Microbiology, vol.30, issue.1, pp.7-24, 2004.

L. C. Clarck and C. Lyons, « Electrode systems for continuous monitoring in cardiovascular surgery, Annals of the New York Academy of sciences, vol.192, issue.1, pp.29-45, 1962.

V. Templier, A. Roux, Y. Roupioz, and T. Livache, « Ligands for label-free detection of whole bacteria on biosensors : A review, vol.79, pp.71-79, 2016.

I. Palchetti and M. Mascini, « Electroanalytical biosensors and their potential for food pathogen and toxin detection », Anal Bioanal Chem, vol.391, issue.2, pp.455-471, 2008.

O. Lazcka, F. J. Campo, and F. X. Muñoz, « Pathogen detection: A perspective of traditional methods and biosensors, Biosensors and Bioelectronics, vol.22, issue.7, pp.1205-1217, 2007.

E. Howe and G. Harding, « A comparison of protocols for the optimisation of detection of bacteria using a surface acoustic wave ( SAW ) biosensor », Biosensors and Bioelectronics, vol.15, pp.641-649, 2000.

G. A. Campbell, J. Uknalis, S. Tu, and R. Mutharasan, « Detect of Escherichia coli O157:H7 in ground beef samples using piezoelectric excited millimeter-sized cantilever (PEMC) sensors », Biosensors and Bioelectronics, vol.22, issue.7, pp.1296-1302, 2007.

G. A. Campbell and R. Mutharasan, « Detection of pathogen Escherichia coli O157:H7 using self-excited PZT-glass microcantilevers, Biosensors and Bioelectronics, vol.21, issue.3, pp.462-473, 2005.

B. L. Weeks, J. Camarero, A. Noy, A. E. Miller, J. J. Yoreo et al., « A microcantilever-based pathogen detector, Scanning, vol.25, issue.6, pp.297-299, 2003.

D. Maraldo and R. Mutharasan, « 10-Minute Assay for Detecting Escherichia coli O157:H7 in Ground Beef Samples Using Piezoelectric-Excited Millimeter-Size Cantilever Sensors, Journal of Food Protection, vol.70, issue.7, pp.1670-1677, 2007.

M. Varshney, Y. Li, B. Srinivasan, and E. S. Tung, « A label-free , microfluidics and interdigitated array microelectrode-based impedance biosensor in combination with nanoparticles immunoseparation for detection of Escherichia coli O157 : H7 in food samples, Sensors and Actuators B: Chemical, vol.128, pp.99-107, 2007.

D. A. Boehm, P. A. Gottlieb, and S. Z. Hua, On-chip microfluidic biosensor for bacterial detection and identification, Sensors and Actuators B: Chemical, vol.126, issue.2, pp.508-514, 2007.

E. Pariset, « Separation of Biological Particles in a Modular Platform of Cascaded Deterministic Lateral Displacement Modules, Scientific Reports, vol.8, issue.1, p.17762, 2018.

D. Puchberger-enengl, S. Podszun, H. Heinz, C. Hermann, P. Vulto et al., Microfluidic concentration of bacteria by on-chip electrophoresis, vol.5, pp.44111-044111

W. M. Hassen, H. Sanyal, M. Hammood, K. Moumanis, E. H. Frost et al.,

. Dubowski, Chemotaxis for enhanced immobilization of Escherichia coli and Legionella pneumophila on biofunctionalized surfaces of GaAs, vol.11, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01918132

V. Templier, A. Roux, Y. Roupioz, and T. Livache, Ligands for label-free detection of whole bacteria on biosensors: A review, vol.79, pp.71-79, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01972058

Y. Jung, J. Y. Jeong, and B. H. Chung, Recent advances in immobilization methods of antibodies on solid supports, vol.133, pp.697-701, 2008.

A. K. Trilling, J. Beekwilder, and H. Zuilhof, « Antibody orientation on biosensor surfaces: a minireview, vol.138, pp.1619-1627, 2013.

B. Byrne, E. Stack, N. Gilmartin, and R. O'kennedy, Antibody-Based Sensors: Principles, Problems and Potential for Detection of Pathogens and Associated Toxins », Sensors, vol.9, pp.4407-4445, 2009.

J. B. Fasoli and R. M. Corn, Surface Enzyme Chemistries for Ultrasensitive Microarray Biosensing with SPR Imaging », Langmuir, vol.31, pp.9527-9536, 2015.

C. Huang, J. Dostalek, A. Sessitsch, and W. Knoll, Long-Range Surface Plasmon-Enhanced Fluorescence Spectroscopy Biosensor for Ultrasensitive Detection of E. coli O157:H7 », vol.83, pp.674-677, 2011.

Y. Wang, W. Knoll, and J. Dostalek, « Bacterial Pathogen Surface Plasmon Resonance Biosensor Advanced by Long Range Surface Plasmons and Magnetic Nanoparticle Assays », Anal. Chem, vol.84, pp.8345-8350, 2012.

H. J. Lee, A. W. Wark, and R. M. Corn, « Creating Advanced Multifunctional Biosensors with Surface Enzymatic Transformations », Langmuir, vol.22, pp.5241-5250

E. Karunakaran, J. Mukherjee, B. Ramalingam, C. A. Biggs, and «. , Biofilmology": a multidisciplinary review of the study of microbial biofilms, Appl Microbiol Biotechnol, vol.90, issue.6, pp.1869-1881, 2011.

F. Ahimou, M. J. Semmens, G. Haugstad, and P. J. Novak, « Effect of protein, polysaccharide, and oxygen concentration profiles on biofilm cohesiveness, Applied and environmental microbiology, vol.73, issue.9, pp.2905-2910, 2007.

R. Singh, D. Paul, R. K. Jain, and . Biofilms, Trends in Microbiology, vol.14, issue.9, pp.389-397, 2006.

T. Mattila-sandholm and G. Wirtanen, « Biofilm formation in the industry: A review, Food Reviews International, vol.84, pp.573-603, 1992.

G. Cheng, Z. Zhang, S. Chen, J. D. Bryers, and E. S. Jiang, « Inhibition of bacterial adhesion and biofilm formation on zwitterionic surfaces, Biomaterials, vol.28, pp.4192-4199, 2007.

J. Palmer, S. Flint, and J. Brooks, « Bacterial cell attachment, the beginning of a biofilm, J Ind Microbiol Biotechnol, vol.34, issue.9, pp.577-588, 2007.

C. Díaz, P. L. Schilardi, R. C. Salvarezza, and M. F. De-mele, Nano/microscale order affects the early stages of biofilm formation on metal surfaces, vol.23, pp.11206-11210, 2007.

H. Gu and D. Ren, Materials and surface engineering to control bacterial adhesion and biofilm formation: A review of recent advances, Frontiers of Chemical Science and Engineering, vol.8, issue.1, pp.20-33, 2014.

L. Ploux, S. Beckendorff, M. Nardin, and E. S. Neunlist, « Quantitative and morphological analysis of biofilm formation on self-assembled monolayers, Colloids and Surfaces B: Biointerfaces, vol.57, issue.2, pp.174-181, 2007.

K. M. Yeater, « Temporal analysis of Candida albicans gene expression during biofilm development, Microbiology, vol.153, issue.8, pp.2373-2385, 2007.

H. Gu, S. Hou, C. Yongyat, S. De-tore, and D. Ren, Patterned Biofilm Formation Reveals a Mechanism for Structural Heterogeneity in Bacterial Biofilms », Langmuir, vol.29, pp.11145-11153, 2013.

C. Dorel, O. Vidal, C. Prigent-combaret, I. Vallet, and P. Lejeune, « Involvement of the Cpx signal transduction pathway of E. coli in biofilm formation, FEMS Microbiology Letters, vol.178, issue.1, pp.169-175, 1999.

C. Prigent-combaret, O. Vidal, C. Dorel, and P. Lejeune, Abiotic surface sensing and biofilm-dependent regulation of gene expression in Escherichia coli. », Journal of bacteriology, vol.181, pp.5993-6002, 1999.

C. Prigent-combaret, « Complex Regulatory Network Controls Initial Adhesion and Biofilm Formation in Escherichia coli via Regulation of thecsgD Gene, J. Bacteriol, vol.183, pp.7213-7223, 2001.

J. C. Conrad, « Flagella and pili-mediated near-surface single-cell motility mechanisms in P. aeruginosa », Biophysical Journal, 2011.

R. S. Friedlander, H. Vlamakis, P. Kim, M. Khan, R. Kolter et al., « Bacterial flagella explore microscale hummocks and hollows to increase adhesion, Proceedings of the National Academy of Sciences of the United States of America, vol.110, pp.5624-5633, 2013.

A. J. De-kerchove and M. Elimelech, Impact of Alginate Conditioning Film on Deposition Kinetics of Motile and Nonmotile Pseudomonas aeruginosa Strains, vol.73, pp.5227-5234, 2007.

D. G. Davies and G. G. Geesey, « Regulation of the alginate biosynthesis gene algC in Pseudomonas aeruginosa during biofilm development in continuous culture, », Appl. Environ. Microbiol, vol.61, issue.3, p.860, 1995.

J. Elgeti and G. Gompper, Microswimmers near surfaces, vol.225, pp.2333-2352, 2016.

G. Li and J. X. Tang, « Accumulation of microswimmers near a surface mediated by collision and rotational Brownian motion, Physical Review Letters, 2009.

G. Li, « Accumulation of swimming bacteria near a solid surface, Physical Review E, vol.84, issue.4, 2011.

P. Sartori, « Wall accumulation of bacteria with different motility patterns, Phys. Rev. E, vol.97, issue.2, p.22610, 2018.

M. Fletcher, « The Application of Interference Reflection Microscopy to the Study of Bacterial Adhesion to Solid Surfaces

H. O. Smith, . Eggins, . Éd, and . Dordrecht, , pp.31-35, 1988.

P. A. Marshall, « Response of Microbial Adhesives and Biofilm Matrix Polymers to Chemical Treatments as Determined by Interference Reflection Microscopy and Light Section Microscopyt, APPL. ENVIRON. MICROBIOL, vol.55, issue.11, pp.2827-2831, 1989.

K. K. Wong, A. L. Olsson, B. Asadishad, B. Van-der-bruggen, and E. N. Tufenkji, Role of Cell Appendages in Initial Attachment and Stability of E. coli on Silica Monitored by Nondestructive TIRF Microscopy », Langmuir, vol.33, pp.4066-4075, 2017.

R. He, « Enhanced live cell membrane imaging using surface plasmonenhanced total internal reflection fluorescence microscopy, Optics Express, vol.14, pp.9307-9316, 2006.

P. N. Abadian, N. Tandogan, J. J. Jamieson, and E. D. Goluch, Using surface plasmon resonance imaging to study bacterial biofilms, Biomicrofluidics, vol.8, issue.2, p.21804, 2014.

J. Homola, Electromagnetic Theory of Surface Plasmons, vol.4, pp.3-44, 2006.

M. Born and E. Wolf, Principles of Optics: Electromagnetic Theory of Propagation, Interference and Diffraction of Light, 7 e éd, 1999.

, « Refractive index of H2O, D2O (Water, heavy water, ice) -Hale »

D. Sur,

«. Osa-|, Optical constants and structural properties of thin gold films

D. Sur,

A. Otto, A new method for exciting non-radioactive surface plasma oscillations », Physica Status Soldi, pp.99-101, 1968.

E. Kretschmann and H. Raether, « Radiative Decay of Non Radiative Surface Plasmons Excited by Light, 1968.

B. K. Singh and A. C. Hillier, « Surface Plasmon Resonance Imaging of Biomolecular Interactions on a Grating-Based Sensor Array, Analytical Chemistry, vol.78, issue.6, 2006.

C. Hu, « Surface plasmon resonance sensor based on diffraction grating with high sensitivity and high resolution, Optik -International Journal for Light and Electron Optics, vol.122, pp.1881-1884, 2011.

J. Homola, I. Koudela, and S. S. Yee, « Surface plasmon resonance sensors based on diffraction gratings and prism couplers: sensitivity comparison, 1999.

G. Marusov, « A Microarray Biosensor for Multiplexed Detection of Microbes Using Grating-Coupled Surface Plasmon Resonance Imaging, Environ Sci Technol, vol.46, issue.1, pp.348-359

J. Dostálek and J. Homola, « Surface plasmon resonance sensor based on an array of diffraction gratings for highly parallelized observation of biomolecular interactions, Sensors and Actuators B: Chemical, vol.129, issue.1, pp.303-310

S. Moon, « Grating-based surface plasmon resonance detection of core-shell nanoparticle mediated DNA hybridization, Biosensors and Bioelectronics, vol.32, issue.1, pp.141-147

A. Sereda, J. Moreau, M. Canva, and E. E. Maillart, « High performance multi-spectral interrogation for surface plasmon resonance imaging sensors, Biosensors and Bioelectronics, vol.54, pp.175-180, 2014.

P. N. Abadian and E. D. Goluch, « Surface plasmon resonance imaging (SPRi) for multiplexed evaluation of bacterial adhesion onto surface coatings, Anal. Methods, vol.7, issue.1, pp.115-122, 2015.

V. Chabot, « Plate-formes de microscopie et fluorescence par résonance de plasmons de surface appliquées à l'imagerie cellulaire, 2013.

E. Suraniti, « Real-time detection of lymphocytes binding on an antibody chip using SPR imaging, vol.7, pp.1206-1208, 2007.

R. Bombera, L. Leroy, T. Livache, and Y. Roupioz, « DNA-directed capture of primary cells from a complex mixture and controlled orthogonal release monitored by SPR imaging, Biosensors and Bioelectronics, vol.33, issue.1, pp.10-16, 2012.

T. Söllradl, F. A. Banville, V. Chabot, M. Canva, M. Grandbois et al., « Metal clad waveguide (MCWG) based imaging using a high numerical aperture microscope objective, Optics Express, vol.25, issue.3, p.1666, 2017.

F. Bardin, A. Bellemain, G. Roger, and M. Canva, « Surface plasmon resonance spectro-imaging sensor for biomolecular surface interaction characterization, Biosensors and Bioelectronics, vol.24, issue.7, pp.2100-2105, 2009.

A. Sereda, J. Moreau, M. Boulade, A. Olivéro, M. Canva et al., « Compact 5-LEDs illumination system for multi-spectral surface plasmon resonance sensing, Sensors and Actuators, B: Chemical, vol.209, pp.208-211, 2015.

D. Habauzit, J. Chopineau, and B. Roig, SPR-based biosensors: a tool for biodetection of hormonal compounds », vol.387, p.1215
URL : https://hal.archives-ouvertes.fr/hal-01662718

J. Guo, P. D. Keathley, and J. T. Hastings, « Dual-mode surface-plasmon-resonance sensors using angular interrogation, p.3

N. J. Wittenberg, « Applications of Surface Plasmon Resonance for Characterization of Molecules Important in the Pathogenesis and Treatment of Neurodegenerative Diseases, Expert review of neurotherapeutics, vol.14, pp.449-463, 2014.

K. House-pompeo, J. O. Boles, and E. M. Höök, Characterization of Bacterial Adhesin Interactions with Extracellular Matrix Components Utilizing Biosensor Technology, vol.6, pp.134-142, 1994.

C. J. Day, L. E. Hartley-tassell, and E. V. Korolik, « Identification of Ligand-Receptor Interactions: Ligand Molecular Arrays, SPR and NMR Methodologies, pp.51-63, 2017.

A. Amano, Molecular Interactions of Porphyromonas gingivalis Fimbriae with Host Proteins: Kinetic Analyses Based on Surface Plasmon Resonance », vol.67, p.2399, 1999.

T. N. Tun, P. J. Cameron, and A. T. Jenkins, « Sensing of pathogenic bacteria based on their interaction with supported bilayer membranes studied by impedance spectroscopy and surface plasmon resonance, Biosensors and Bioelectronics, vol.28, issue.1, pp.227-231, 2011.

S. D. Holmes, K. May, V. Johansson, F. Markey, and I. A. Critchley, « Studies on the interaction of staphylococcus aureus and staphylococcus epidermidis with fibronectin using surface plasmon resonance (BIAcore) », Journal of Microbiological Methods, vol.28, issue.1, pp.77-84, 1997.

M. B. Medina, L. V. Houten, P. H. Cooke, and S. I. Tu, Real-time analysis of antibody binding interactions with immobilized E. coli O157:H7 cells using the BIAcore », vol.11, pp.173-176, 1997.

M. Kawashima, N. Hanada, T. Hamada, J. Tagami, and H. Senpuku, « Real-time interaction of oral streptococci with human salivary components, Oral Microbiology and Immunology, vol.18, issue.4, pp.220-225, 2003.

P. Subramanian, F. Barka-bouaifel, J. Bouckaert, N. Yamakawa, R. Boukherroub et al., Graphene-Coated Surface Plasmon Resonance Interfaces for Studying the Interactions between Bacteria and Surfaces, vol.6, pp.5422-5431, 2014.

A. T. Jenkins, R. Ffrench-constant, A. Buckling, D. J. Clarke, and K. Jarvis, Study of the Attachment of Pseudomonas aeruginosa on Gold and Modified Gold Surfaces Using Surface Plasmon Resonance », vol.20, pp.1233-1236, 2004.

S. S. Nakka, J. Lönn, C. S. Johansson, T. Bengtsson, and F. Nayeri, « Antibodies produced in vitro in the detection of periodontal bacteria by using surface plasmon resonance analysis, Clinical and Experimental Dental Research, vol.1, issue.1, pp.32-44, 2015.

M. B. Medina, Binding of collagen I to Escherichia coli O157:H7 and inhibition by carrageenans, International Journal of Food Microbiology, vol.69, issue.3, pp.199-208, 2001.

M. W. Oli, W. P. Mcarthur, and L. J. Brady, « A whole cell BIAcore assay to evaluate P1-mediated adherence of Streptococcus mutans to human salivary agglutinin and inhibition by specific antibodies, Journal of Microbiological Methods, 2006.

C. G. Kelly, « A synthetic peptide adhesion epitope as a novel antimicrobial agent », Nature Biotechnology, vol.17, p.42, 1999.

A. M. Foudeh, J. T. Daoud, S. P. Faucher, T. Veres, and M. Tabrizian, « Subfemtomole detection of 16s rRNA from Legionella pneumophila using surface plasmon resonance imaging, Biosensors and Bioelectronics, vol.52, pp.129-135

F. Melaine, M. Saad, S. Faucher, and M. Tabrizian, « Selective and High Dynamic Range Assay Format for Multiplex Detection of Pathogenic Pseudomonas aeruginosa, Salmonella typhimurium, and Legionella pneumophila RNAs Using Surface Plasmon Resonance Imaging

A. M. Aura, R. , and G. Spoto, « Ultrasensitive Detection of Staphylococcus aureus and Listeria monocytogenes Genomic DNA by Nanoparticle-Enhanced Surface Plasmon Resonance Imaging, Chemistry Select, vol.2, p.7024, 2017.

M. B. Medina, « Detetion of Staphyloccocal Enterotoxin B (SEB) with Surface Plasmon Resonnance Sensor, Journal of Rapid Methods & Automation in Microbiology, vol.11, issue.3, pp.225-243, 2007.

P. Leonard, S. Hearty, J. Quinn, and R. O'kennedy, « A generic approach for the detection of whole Listeria monocytogenes cells in contaminated samples using surface plasmon resonance, Biosensors and Bioelectronics, vol.19, pp.1331-1335, 2004.

P. Leonard, S. Hearty, G. Wyatt, J. Quinn, and R. O'kennedy, « Development of a Surface Plasmon Resonance-Based Immunoassay for Listeria monocytogenes, Journal of Food Protection, vol.68, issue.4, pp.728-735, 2005.

A. D. Taylor, Q. Yu, S. Chen, J. Homola, and E. S. Jiang, « Comparison of E. coli O157:H7 preparation methods used for detection with surface plasmon resonance sensor, Sensors and Actuators B: Chemical, vol.107, issue.1, pp.202-208, 2005.

Y. Wang, Z. Ye, C. Si, and Y. Ying, Subtractive Inhibition Assay for the Detection of E. coli O157:H7 Using Surface Plasmon Resonance », Sensors (Basel), vol.11, pp.2728-2739, 2011.

V. Koubová, « Detection of foodborne pathogens using surface plasmon resonance biosensors, Sensors and Actuators B: Chemical, vol.74, issue.1, pp.100-105

Y. M. Bae, B. Oh, W. Lee, W. H. Lee, and J. Choi, « Immunosensor for detection of Legionella pneumophila based on imaging ellipsometry, Materials Science and Engineering C, vol.24, issue.2, pp.61-64, 2004.

J. Jyoung, S. Hong, W. Lee, and J. Choi, « Immunosensor for the detection of Vibrio cholerae O1 using surface plasmon resonance, Biosensors and Bioelectronics, vol.21, pp.2315-2319, 2006.

H. Baccar, M. B. Mejri, I. Hafaiedh, T. Ktari, M. Aouni et al., « Surface plasmon resonance immunosensor for bacteria detection, Talanta, vol.82, issue.2, pp.810-814, 2010.

F. C. Dudak and ?. H. Boyac?, « Development of an immunosensor based on surface plasmon resonance for enumeration of Escherichia coli in water samples, Food Research International, vol.40, issue.7, pp.803-807, 2007.

J. Waswa, J. Irudayaraj, and C. Debroy, « Direct detection of E . Coli O157 : H7 in selected food systems by a surface plasmon resonance biosensor, Society of Food Science and Technology, vol.40, pp.187-192, 2007.

Y. Lan, S. Wang, Y. Yin, W. C. Hoffmann, and X. Zheng, « Using a Surface Plasmon Resonance Biosensor for Rapid Detection of Salmonella Typhimurium in Chicken Carcass, Journal of Bionic Engineering, vol.5, issue.3, pp.239-246, 2008.

M. Vala, S. Etheridge, J. A. Roach, and J. Homola, « Long-range surface plasmons for sensitive detection of bacterial analytes, 2009.

J. C. Love, L. A. Estroff, J. K. Kriebel, R. G. Nuzzo, and G. M. Whitesides, Selfassembled monolayers of thiolates on metals as a form of nanotechnology, 2005.

S. K. Bhatia, « Use of thiol-terminal silanes and heterobifunctional crosslinkers for immobilization of antibodies on silica surfaces, Analytical Biochemistry, vol.178, issue.2, pp.408-413, 1989.

S. Balasubramanian, I. B. Sorokulova, V. J. Vodyanoy, and A. L. Simonian, « Lytic phage as a specific and selective probe for detection of Staphylococcus aureus-A surface plasmon resonance spectroscopic study, Biosensors and Bioelectronics, vol.22, issue.6, pp.948-955, 2007.

N. Tawil, E. Sacher, R. Mandeville, and M. Meunier, « Surface plasmon resonance detection of E. coli and methicillin-resistant S. aureus using bacteriophages, Biosensors and Bioelectronics, vol.37, issue.1, pp.24-29

A. Singh, D. Arutyunov, M. T. Mcdermott, C. M. Szymanski, and E. S. Evoy, « Specific detection ofCampylobacter jejuni using the bacteriophage NCTC 12673 receptor binding protein as a probe, Analyst, vol.136, pp.4780-4786, 2011.

J. Ahn, « Surface Plasmon Resonance Aptamer Biosensor for Discriminating Pathogenic Bacteria Vibrio parahaemolyticus », mars, 2018.

D. Sur,

S. M. Yoo, D. Kim, and S. Y. Lee, Aptamer-functionalized localized surface plasmon resonance sensor for the multiplexed detection of different bacterial species, Talanta, vol.132, pp.112-117, 2015.

J. G. Quinn, « Development and Application of Surface Plasmon Resonance-Based Biosensors for the Detection of Cell-Ligand Interactions, Analytical Biochemistry, vol.281, issue.2, pp.135-143, 2000.

C. Zhou, H. Zou, M. Li, C. Sun, D. Ren et al., « Fiber optic surface plasmon resonance sensor for detection of E. coli O157:H7 based on antimicrobial peptides and AgNPs-rGO, Biosensors and Bioelectronics, vol.117, pp.347-353, 2018.

Ö. Torun, ?. Boyac?, E. Temür, and U. Tamer, « Comparison of sensing strategies in SPR biosensor for rapid and sensitive enumeration of bacteria, Biosensors and Bioelectronics, vol.37, issue.1, pp.53-60

A. Subramanian, J. Irudayaraj, and T. Ryan, « A mixed self-assembled monolayerbased surface plasmon immunosensor for detection of E. coli O157:H7 », Biosensors and Bioelectronics, 2006.

P. M. Fratamico, T. P. Strobaugh, M. B. Medina, and A. G. Gehring, « Detection of Escherichia coli 0157:H7 using a surface plasmon resonance biosensor, Biotechnology Techniques, vol.12, issue.7, pp.571-576, 1998.

G. C. Bokken, R. J. Corbee, F. Van-knapen, and A. A. Bergwerff, « Immunochemical detection of Salmonella group B, D and E using an optical surface plasmon resonance biosensor, FEMS Microbiol Lett, vol.222, issue.1, pp.75-82, 2003.

S. Bouguelia, « On-chip microbial culture for the specific detection of very low levels of bacteria, vol.13, p.4024, 2013.

S. Nakano, « Evaluation of a surface plasmon resonance imaging-based multiplex O-antigen serogrouping for Escherichia coli using eleven major serotypes of Shiga -toxin-producing E. coli », Journal of Infection and Chemotherapy, vol.24, pp.443-448, 2018.

K. F. Giebel, « Imaging of cell/substrate contacts of living cells with surface plasmon resonance microscopy, Biophysical Journal, vol.76, issue.1, pp.509-516, 1999.

. «-refractive-index and . Schott--sf,

D. Sur,

J. Augustin and V. Carlier, Mathematical modelling of the growth rate and lag time for Listeria monocytogenes, International Journal of Food Microbiology, vol.56, issue.1, pp.29-51, 2000.

M. H. Zwietering, J. T. De-koos, B. E. Hasenack, J. C. De-witt, E. K. Van't-riet et al., Appl. Environ. Microbiol, vol.57, issue.4, pp.1094-1101, 1991.

D. A. Ratkowsky, J. Olley, T. A. Mcmeekin, and A. Ball, « Relationship Between Temperature and Growth Rate of Bacterial Cultures, J. BACTERIOL, vol.149, p.5, 1982.

M. Bélanger, Y. Marois, and . Hemocompatibility, biocompatibility, inflammatory and in vivo studies of primary reference materials low-density polyethylene and polydimethylsiloxane: A review, Journal of Biomedical Materials Research, vol.58, issue.5, pp.467-477, 2002.

C. S. Moreira, A. M. Lima, H. Neff, and C. Thirstrup, « Temperature-dependent sensitivity of surface plasmon resonance sensors at the gold-water interface, Sensors and Actuators, B: Chemical, vol.134, issue.2, pp.854-862, 2008.

K. Özdemir and G. Turhan-sayan, « Temperature Effects on Surface Plasmon Resonance: Design Considerations for an Optical Temperature Sensor, Journal of Lightwave Technology, vol.21, issue.3, pp.805-814, 2003.

A. Morlay, « Développement d'une méthode de détection multiplexe de bactéries pathogènes en matrice alimentaire se basant sur l'imagerie par résonance des plasmons de surface (SPRi), 2016.

R. B. Schasfoort, A. J. Tudos, and É. , Handbook of Surface Plasmon Resonance, 1 edition, 2008.

A. D. Jewell, H. L. Tierney, and E. C. Sykes, « Gently lifting gold's herringbone reconstruction: Trimethylphosphine on Au(111), Phys. Rev. B, vol.82, p.205401, 2010.

D. V. Leff, L. Brandt, and J. R. Heath, Synthesis and Characterization of Hydrophobic, vol.12, pp.4723-4730

S. Kim, L. K. Jang, H. S. Park, and J. Y. Lee, Electrochemical deposition of conductive and adhesive polypyrrole-dopamine films, vol.6, p.30475, 2016.

T. Livache, A. Roget, E. Dejean, C. Barthet, G. Bidan et al., « Preparation of a DNA matrix via an electrqchemically directed copolymerization of pyrrole and oligonucleotides bearing a pyrrole group, Nucleic Acids Research, vol.22, pp.2915-2921, 1994.

Y. Roupioz, « Individual Blood-Cell Capture and 2D Organization on Microarrays, vol.5, pp.1493-1497, 2009.

M. Wahlgren and T. Arnebrant, « Protein adsorption to solid surfaces, Trends in Biotechnology, vol.9, issue.1, pp.201-208, 1991.

E. T. Gedig, « Surface Chemistry in SPR Technology, Handbook of Surface Plasmon Resonance, pp.171-254

A. Välimaa, A. Tilsala-timisjärvi, and E. E. Virtanen, « Rapid detection and identification methods for Listeria monocytogenes in the food chain -A review », Food Control, vol.55, pp.103-114, 2015.

V. Nanduri, A. K. Bhunia, S. Tu, G. C. Paoli, and J. D. Brewster, « SPR biosensor for the detection of L. monocytogenes using phage-displayed antibody, Biosensors and Bioelectronics, vol.23, issue.2, pp.248-252, 2007.

A. D. Taylor, J. Ladd, Q. Yu, S. Chen, J. Homola et al., « Quantitative and simultaneous detection of four foodborne bacterial pathogens with a multi-channel SPR sensor, Biosensors and Bioelectronics, vol.22, issue.5, pp.752-758, 2006.

T. M. Squires, R. J. Messinger, and S. R. Manalis, Making it stick: convection, reaction and diffusion in surface-based biosensors », Nature Biotechnology, vol.26, issue.4, pp.417-426, 2008.

A. Morlay, « Label-free immuno-sensors for the fast detection of Listeria in food, Measurement, vol.98, pp.305-310

E. Lauga, W. R. Diluzio, G. M. Whitesides, and H. A. Stone, « Swimming in Circles: Motion of Bacteria near Solid Boundaries, Biophysical Journal, vol.90, issue.2, pp.400-412, 2006.

R. D. Leonardo, D. Dell'arciprete, L. Angelani, and V. Iebba, « Swimming with an image, Physical Review Letters, 2011.

H. C. Berg, Random walk in biology, 1993.

H. C. Berg and L. Turner, Chemotaxis of bacteria in glass capillary arrays. Escherichia coli, motility, microchannel plate, and light scattering », Biophysical Journal, vol.58, issue.4, pp.919-930, 1990.

K. Maeda, Y. Imae, J. I. Shioi, and F. Oosawa, Effect of temperature on motility and chemotaxis of Escherichia coli, vol.127, p.1039, 1976.

P. D. Frymier, R. M. Ford, H. C. Berg, and P. T. Cummings, « Three-dimensional tracking of motile bacteria near a solid planar surface, Proceedings of the National Academy of Sciences, vol.92, pp.6195-6199, 1995.

P. D. Frymier and R. M. Ford, Analysis of bacterial swimming speed approaching a solid-liquid interface, AIChE Journal, vol.43, issue.5, pp.1341-1347, 2004.

, « Focus tunable lenses

D. Sur,

T. G. Georgiev, « Plenoptic camera with large depth of field, vol.7949252, pp.24-2011

J. Tinevez, An open and extensible platform for single-particle tracking, vol.115, pp.80-90, 2017.
URL : https://hal.archives-ouvertes.fr/pasteur-01799353

I. Jolliffe, « Principal Component Analysis, International Encyclopedia of Statistical Science, M. Lovric, Éd. Berlin, pp.1094-1096, 2011.

J. P. Busalmen and S. R. De-sánchez, « Adhesion of Pseudomonas fluorescens (ATCC 17552) to Nonpolarized and Polarized Thin Films of Gold, Applied and Environmental Microbiology, vol.67, issue.7, pp.3188-3194, 2001.

R. G. Chapman, « Polymeric Thin Films That Resist the Adsorption of Proteins and the Adhesion of Bacteria, Langmuir, vol.17, issue.4, pp.1225-1233, 2001.

I. M. Marcus, M. Herzberg, S. L. Walker, and V. Freger, Pseudomonas aeruginosa Attachment on QCM-D Sensors: The Role of Cell and Surface Hydrophobicities, vol.28, pp.6396-6402, 2012.

J. Gu, A. Valdevit, T. Chou, and M. Libera, « Substrate effects on cell-envelope deformation during early-stage Staphylococcus aureus biofilm formation, Soft Matter, vol.13, pp.2967-2976, 2017.

Y. Chen, A. K. Harapanahalli, H. J. Busscher, W. Norde, H. C. Van-der et al., « Nanoscale Cell Wall Deformation Impacts Long-Range Bacterial Adhesion Forces on Surfaces, Appl. Environ. Microbiol, vol.80, issue.2, pp.637-643, 2014.

Y. Chen, W. Norde, H. C. Van-der-mei, and H. J. Busscher, « Bacterial Cell Surface Deformation under External Loading, vol.3, pp.378-390

J. Li, « Residence-time dependent cell wall deformation of different Staphylococcus aureus strains on gold measured using surface-enhancedfluorescence, Soft Matter, vol.10, pp.7638-7646, 2014.

C. Delisi, Antigen Antibody Interactions, 2013.

Y. Lai and R. L. Gallo, « AMPed up immunity: how antimicrobial peptides have multiple roles in immune defense, Trends in Immunology, vol.30, issue.3, pp.131-141, 2009.

E. Andrès and J. Dimarcq, « Cationic antimicrobial peptides: from innate immunity study to drug development, Medecine et maladies infectieuses, vol.37, pp.194-199

M. Zasloff and . Magainins, a class of antimicrobial peptides from Xenopus skin: Isolation, characterization of two active forms, and partial cDNA sequence of a precursor, Proc. Natl. Acad. Sci, p.5, 1987.

M. Zasloff, Antimicrobial peptides of multicellular organisms, vol.415, pp.389-395, 2002.

N. V. Kulagina, M. E. Lassman, F. S. Ligler, and C. R. Taitt, « Antimicrobial Peptides for Detection of Bacteria in Biosensor Assays, Analytical Chemistry, vol.77, pp.6504-6508, 2005.

N. V. Kulagina, K. M. Shaffer, G. P. Anderson, F. S. Ligler, and C. R. Taitt, « Antimicrobial peptide-based array for Escherichia coli and Salmonella screening », Analytica Chimica Acta, vol.575, issue.1, pp.9-15, 2006.

H. Etayash, L. Norman, T. Thundat, M. Stiles, and K. Kaur, « Surface-Conjugated Antimicrobial Peptide Leucocin A Displays High Binding to Pathogenic Gram-Positive Bacteria, ACS Applied Materials & Interfaces, vol.6, issue.2, pp.1131-1138, 2014.

H. Etayash, L. Norman, T. Thundat, and K. Kaur, « Peptide-Bacteria Interactions using Engineered Surface-Immobilized Peptides from Class IIa Bacteriocins, Langmuir, vol.29, pp.4048-4056, 2013.

K. Anselme, P. Davidson, A. M. Popa, M. Giazzon, M. Liley et al., The interaction of cells and bacteria with surfaces structured at the nanometre scale », 2010.
URL : https://hal.archives-ouvertes.fr/hal-02384171

S. D. Puckett, E. Taylor, T. Raimondo, and T. J. Webster, The relationship between the nanostructure of titanium surfaces and bacterial attachment, vol.31, pp.706-713, 2010.

E. Westas, M. Gillstedt, J. Lönn-stensrud, E. Bruzell, M. Andersson et al., Journal of Biomedical Materials Research Part A, vol.102, issue.4, pp.1063-1070

C. Díaz, R. C. Salvarezza, L. Fernández, A. Mónica, and P. L. Schilardi, Organization of Pseudomonas fluorescens on Chemically Different Nano/Microstructured Surfaces, vol.2, pp.2530-2539, 2010.

M. Yang, Y. Ding, X. Ge, and Y. Leng, Control of bacterial adhesion and growth on honeycomb-like patterned surfaces, vol.135, pp.549-555, 2015.

X. Ge, « Bacterial responses to periodic micropillar array, Journal of Biomedical Materials Research Part A, vol.103, issue.1, pp.384-396, 2015.

R. Helbig, D. Günther, J. Friedrichs, F. Rö\s-sler, A. Lasagni et al., The impact of structure dimensions on initial bacterial adhesion, vol.4, pp.1074-1078, 2016.

B. Rowan, M. A. Wheeler, and R. M. Crooks, Patterning Bacteria within Hyperbranched Polymer Film Templates, 2002.

I. Wong, X. Ding, C. Wu, and C. Ho, Accurate and effective live bacteria microarray patterning on thick polycationic polymer layers co-patterned with HMDS », RSC Advances, vol.2, pp.7673-7676, 2012.

R. Hansen, K. Shubert, J. Morrell-falvey, B. Lokitz, M. Doktycz et al., « Microstructured Block Copolymer Surfaces for Control of Microbe Adhesion and Aggregation, Biosensors, vol.4, issue.1, pp.63-75, 2014.

S. Bouguelia, « Développement de biopuces dédiée a la détection de bactériespatho ene a faibles taux

C. Azzopardi, A Fluidic Interface with High Flow Uniformity for Reusable Large Area Resonant Biosensors », Micromachines, vol.8, 2017.

D. Puchberger-enengl, S. Podszun, H. Heinz, C. Hermann, P. Vulto et al., Microfluidic concentration of bacteria by on-chip electrophoresis, vol.5, pp.44111-4411110

Q. Avenas, « Improvement in the performances of a plasmonic sensor using a combination of electrohydrodynamical effects, 2018.

S. Delshadi, « Rapid immunoassay exploiting nanoparticles and micromagnets: proof-of-concept using ovalbumin model, Bioanalysis, vol.9, issue.6, pp.517-526, 2017.

«. Us20150355174a1--, Method for capturing, method for detecting and kit for capturing a molecule in a sample -Google Patents

H. C. Berg, Random walk in biology, 1993.

R. M. Ford, B. R. Phillips, J. A. Quinn, and E. A. Douglas, Measurement of Bacterial Random Motility and Chemotaxis Coefficients : 1 . Stopped-Flow Diffusion Chamber Assay, vol.37, pp.647-660, 1991.