, Conventional Electrochemical Techniques for Assembly of Electrodes on Glassy Carbon Like PPF Materials and Their Use in a Glucose Microfluidic Fuel Cell. Fuel Cells, vol.14, pp.810-817, 2014.

R. Polsky, C. M. Washburn, G. Montano, H. Liu, T. L. Edwards et al., Reactive Ion Etching of Gold Nanoparticle Modified Pyrolyzed Photoresist Films, Small, vol.5, issue.22, pp.2510-2513, 2009.

I. G. Casella and M. Contursi, The Electrochemical Reduction of Nitrophenols on Silver Globular Particles Electrodeposited under Pulsed Potential Conditions, J. Electrochem. Soc, vol.154, issue.12, 2007.

C. Zhang, S. Govindaraju, K. Giribabu, Y. S. Huh, and K. Yun, AgNWs PANI nanocomposite based electrochemical sensor for detection of 4 nitrophenol, vol.252, pp.616-623, 2017.

N. I. Ikhsan, P. Rameshkumar, and N. M. Huang, Electrochemical properties of silver nanoparticle supported reduced graphene oxide in nitric oxide oxidation and detection, vol.6, pp.107141-107150, 2016.

K. Esumi, R. Isono, and T. Yoshimura, Preparation of PAMAM and PPI Metal (Silver, Platinum, and Palladium) Nanocomposites and Their Catalytic Activities for Reduction of 4 Nitrophenol, Langmuir, vol.20, issue.1, pp.237-243, 2004.

I. Lopez-salido, D. C. Lim, and Y. D. Kim, Ag nanoparticles on highly ordered pyrolytic graphite (HOPG) surfaces studied using STM and XPS, Surf. Sci, vol.588, issue.1?3, pp.6-18, 2005.

P. Zhang, C. Shao, Z. Zhang, M. Zhang, J. Mu et al., In situ assembly of well dispersed Ag nanoparticles (AgNPs) on electrospun carbon nanofibers (CNFs) for catalytic reduction of 4 nitrophenol, Nanoscale, vol.2011, issue.8, pp.3357-3363

N. I. Ikhsan, P. Rameshkumar, and N. M. Huang, Controlled synthesis of reduced graphene oxide supported silver nanoparticles for selective and sensitive electrochemical detection of 4 nitrophenol, Electrochim. Acta, vol.192, pp.392-399, 2016.

S. J. Koh, Strategies for controlled placement of nanoscale building blocks, Nanoscale Res. Lett, vol.2, issue.11, pp.519-545, 2007.

J. Cure, H. Assi, K. Cocq, L. Marin, K. Fajerwerg et al., Controlled Growth and Grafting of High Density Au Nanoparticles on Zinc Oxide Thin Films by Photo Deposition, Langmuir, vol.34, issue.5, 1932.
URL : https://hal.archives-ouvertes.fr/hal-01690677

S. Liu, X. Wang, S. Zhang, X. Lu, T. Li et al., The fabrication of a high sensitivity surface enhanced Raman spectra substrate using texturization and electroplating technology, Appl. Surf. Sci, vol.490, pp.109-116, 2019.

S. C. Shen, W. T. Liu, and J. J. Diao, Colloidally deposited nanoparticle wires for biophysical detection, Chin. Phys. B, issue.12, p.127308, 2015.

M. O. Stetsenko, S. P. Rudenko, L. S. Maksimenko, B. K. Serdega, O. Pluchery et al., Optical Properties of Gold Nanoparticle Assemblies on a Glass Surface, Nanoscale Res. Lett, vol.2017, issue.1, pp.1-10
URL : https://hal.archives-ouvertes.fr/hal-01534721

K. Fajerwerg, V. Ynam, B. Chaudret, V. Garcon, D. Thouron et al., An original nitrate sensor based on silver nanoparticles electrodeposited on a gold electrode, Electrochem. Commun, issue.10, pp.1439-1441, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00998627

M. Supur, S. R. Smith, and R. L. Mccreery, Characterization of Growth Patterns of Nanoscale Organic Films on Carbon Electrodes by Surface Enhanced Raman Spectroscopy, Anal. Chem, vol.89, issue.12, pp.6463-6471, 2017.

A. C. Cruickshank and A. J. Downard, Electrochemical stability of citrate capped gold nanoparticles electrostatically assembled on amine modified glassy carbon, Electrochim. Acta, vol.54, issue.23, pp.5566-5570, 2009.

R. R. Michel, D. Sutherland, C. Fokas, G. Csucs, G. Danuser et al., A Novel Approach To Produce Biologically Relevant Chemical Patterns at the Nanometer Scale: Selective Molecular Assembly Patterning Combined with Colloidal Lithography, Langmuir, vol.18, issue.22, pp.8580-8586, 2002.

T. Schlichthaerle, M. T. Strauss, F. Schueder, J. B. Woehrstein, and R. Jungmann, Curr. Opin. Biotechnol, vol.39, pp.41-47, 2016.

T. Breton and A. J. Downard, Controlling Grafting from Aryldiazonium Salts: A Review of Methods for the Preparation of Monolayers, Aust. J. Chem, vol.2017, issue.9, pp.960-972
URL : https://hal.archives-ouvertes.fr/hal-02533470

A. J. Downard, D. J. Garrett, and E. S. Tan, Microscale Patterning of Organic Films on Carbon Surfaces Using Electro chemistry and Soft Lithography, Langmuir, vol.22, issue.25, pp.10739-10746, 2006.

L. Lee, P. A. Brooksby, and A. J. Downard, The stability of diazonium ion terminated films on glassy carbon and gold electrodes, Electrochem. Commun, vol.19, pp.67-69, 2012.

T. Menanteau, M. Dias, E. Levillain, A. J. Downard, and T. Breton, Electrografting via diazonium chemistry: key role of aryl substituent in layer growth mechanism, J. Phys. Chem. C, issue.8, pp.4423-4429, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01330327

C. Coperet, A. Fedorov, and P. A. Zhizhko, Surface Organo metallic Chemistry: Paving the Way Beyond Well Defined Supported Organometallics and Single Site Catalysis, Catal. Lett, vol.147, issue.9, pp.2247-2259, 2017.

Z. Xu, R. Xu, Y. Yue, P. Yuan, X. Bao et al., Bimetallic Pt Sn nanocluster from the hydrogenolysis of a well defined surface compound consisting of [(AlO )Pt(COD)Me] and [(AlO )SnPh3] fragments for propane dehydrogenation, J. Catal, vol.374, pp.391-400, 2019.

J. Cure, K. Piettre, . Sournia, A. Saquet, Y. Coppel et al., A Novel Method for the Metalization of 3D Silicon Induced by Metastable Copper Nanoparticles, ACS Appl. Mater. Interfaces, vol.10, issue.38, pp.32838-32848, 2018.

E. Lebon, P. Fau, M. Comtat, M. L. Kahn, . Sournia et al., Situ Metalorganic Deposition of Silver Nanoparticles on Gold Substrate and Square Wave Voltammetry: A Highly Efficient Combination for Nanomolar Detection of Nitrate Ions in Sea Water, Chemosensors, vol.2018, issue.4, p.50
URL : https://hal.archives-ouvertes.fr/hal-02336687

R. L. Mccreery, Advanced Carbon Electrode Materials for Molecular Electrochemistry, Chem. Rev, vol.108, issue.7, pp.2646-2687, 2008.

P. A. Brooksby and A. J. Downard, Electrochemical and atomic force microscopy study of carbon surface modification via diazonium reduction in aqueous and acetonitrile solutions, Langmuir, vol.20, issue.12, pp.5038-5083, 2004.

A. J. Downard, E. S. Tan, and S. S. Yu, Controlled assembly of gold nanoparticles on carbon surfaces, New J. Chem, vol.30, issue.9, pp.1283-1288, 2006.

K. Barman, B. Changmai, and S. Jasimuddin, Electrochemical Detection of Para nitrophenol using Copper Metal Nanoparticles Modified Gold Electrode, Electroanalysis, vol.2017, issue.12, pp.2780-2787

K. Ounnunkad, H. V. Patten, M. Velicky, A. K. Farquhar, P. A. Brooksby et al., Electrowetting on conductors: anatomy of the phenomenon, pp.49-61, 2017.

Z. Zhao, Z. Zheng, C. Roux, C. Delmas, J. D. Marty et al., Importance of the Correlation between Width and Length in the Shape Analysis of Nanorods: Use of a 2D Size Plot To Probe Such a Correlation, Chem. Eur. J, vol.22, issue.35, pp.12424-12429, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01936037

R. Kostecki, B. Schnyder, D. Alliata, X. Song, K. Kinoshita et al., Surface studies of carbon films from pyrolyzed photoresist, Thin Solid Films, vol.396, pp.36-43, 2001.

A. C. Ferrari, A. Libassi, B. K. Tanner, V. Stolojan, J. Yuan et al., Density, sp3 fraction, and cross sectional structure of amorphous carbon films determined by x ray reflectivity and electron energy loss spectroscopy, Phys. Rev. B: Condens. Matter Mater. Phys, vol.62, issue.16, pp.11089-11103, 2000.

I. Romero, J. Aizpurua, G. W. Bryant, and F. J. Garcia-de-abajo, Plasmons in nearly touching metallic nanoparticles: singular response in the limit of touching dimers, Opt. Express, vol.14, issue.21, pp.9988-99, 2006.

E. Metin-akinoglu, T. Sun, J. Gao, M. Giersig, Z. Ren et al., Evidence for critical scaling of plasmonic modes at the percolation threshold in metallic nanostructures, Appl. Phys. Lett, issue.17, p.171106, 2013.

J. Langer, S. M. Novikov, and L. M. Liz-marzan, Sensing using plasmonic nanostructures and nanoparticles, Nanotechnology, vol.26, issue.32, pp.1-28, 2015.

J. Reguera, J. Langer, D. Jimenez-de-aberasturi, and L. M. Liz-marzan, Anisotropic metal nanoparticles for surface enhanced Raman scattering, Chem. Soc. Rev, vol.46, issue.13, pp.3866-3885, 2017.

L. Gunnarsson, T. Rindzevicius, J. Prikulis, B. Kasemo, M. Kall et al., Confined plasmons in nanofabricated single silver particle pairs: experimental observations of strong interparticle interactions, J. Phys. Chem. B, vol.109, issue.3, pp.1079-1087, 2005.

A. Danhel, V. Mansfeldova, P. Janda, V. Vyskocil, and J. Barek, Crystallic silver amalgam a novel electrode material, Analyst, issue.18, pp.3656-3662, 2011.

J. Fischer, L. Vanourkova, A. Danhel, V. Vyskocil, K. Cizek et al., Voltammetric determination of nitrophenols at a silver solid amalgam electrode, Int. J. Electrochem. Sci, vol.2, issue.3, pp.226-234, 2007.

R. Madhu, C. Karuppiah, S. M. Chen, P. Veerakumar, and S. B. Liu, Electrochemical detection of 4 nitrophenol based on biomass derived activated carbons, Anal. Methods, vol.6, issue.14, pp.5274-5280, 2014.

P. A. Brooksby and A. J. Downard, Nanoscale Patterning of Flat Carbon Surfaces by Scanning Probe Lithography and Electro chemistry, Langmuir, vol.21, issue.5, pp.1672-1675, 2005.

R. Fenger, E. Fertitta, H. Kirmse, A. F. Thuenemann, and K. Rademann, Size dependent catalysis with CTAB stabilized gold nanoparticles, Phys. Chem. Chem. Phys, vol.2012, issue.26, pp.9343-9349

J. Piella, F. Merkoci, A. Genc, J. Arbiol, N. G. Bastus et al., Probing the surface reactivity of nanocrystals by the catalytic degradation of organic dyes: the effect of size, surface chemistry and composition, J. Mater. Chem. A, vol.2017, issue.23, pp.11917-11929