, Wastewater analysis and drugs: a European multi-city study, EMCDDA, pp.1-5, 2016.

, MicroMole©, sewage monitoring system for tracking synthetic drugs laboratories, 2015.

R. Adams, W. E. Bachmann, J. R. Johnson, H. R. Snyder, T. L. Jacobs et al., The Leuckart Reaction. Organic Reactions, 1949.

M. Neve??anin, S. B. Stevi?, S. Petrovi?, and V. Vajs, Analysis of amphetamines illegally produced in Serbia, J. Serbian Chem. Soc, vol.73, pp.691-701, 2008.

R. Leuckart, Ueber eine neue Bildungeweiae von Tribensylemin, Berichte Der Dtsch. Chem. Gesellschaft, vol.154, pp.72-75, 1885.

M. Bohn, G. Bohn, and G. Blaschke, Synthesis markers in illegally manufactured 3,4methylenedioxyamphetamine and 3,4-methylenedioxymethamphetamine, Int. J. Legal Med, vol.106, pp.19-23, 1993.

F. Palhol, S. Boyer, N. Naulet, and M. Chabrillat, Impurity profiling of seized MDMA tablets by capillary gas chromatography, Anal. Bioanal. Chem, vol.374, pp.274-281, 2002.

D. Blachut, K. Wojtasiewicz, and Z. Czarnocki, Identification and synthesis of some contaminants present in 4-methoxyamphetamine (PMA) prepared by the Leuckart method, Forensic Sci. Int, vol.127, pp.45-62, 2002.

V. Kunalan, N. N. Daéid, W. J. Kerr, H. A. Buchanan, and A. R. Mcpherson, Characterization of route specific impurities found in methamphetamine synthesized by the Leuckart and reductive amination methods, Anal. Chem, vol.81, pp.7342-7348, 2009.

M. Lambrechts and K. E. Rasmussen, Leuckart-specific impurities in amphetamine and methamphetamine seized in Norway, Bull. Narc, vol.36, pp.87855-87864, 1984.

. Europol, Europoly synthetic dug production equipment cataloge, 2010.

, Assesing ilicit drugs in wastewater: advances in wastwater-based drug epidemiology, Publication Office of the European Union, 2016.

S. Castiglioni, K. V. Thomas, B. Kasprzyk-hordern, L. Vandam, and P. Griffiths, Testing wastewater to detect illicit drugs: State of the art, potential and research needs, Sci. Total Environ, vol.487, pp.613-620, 2014.

N. Schaefer, B. Peters, P. Schmidt, and A. H. Ewald, Development and validation of two LC-MS/MS methods for the detection and quantification of amphetamines, designer amphetamines, benzoylecgonine, benzodiazepines, opiates, and opioids in urine using turbulent flow chromatography, Anal. Bioanal. Chem, vol.405, pp.247-258, 2013.

O. and C. , United Nations, Amphetamine, Methamphetamine and Their Ring-Substituted Analogues in Seized Materials, 2006.

J. Sun, X. Xu, C. Wang, and T. You, Analysis of amphetamines in urine with liquid-liquid extraction by capillary electrophoresis with simultaneous electrochemical and electrochemiluminescence detection, Electrophoresis, vol.29, pp.3999-4007, 2008.

Z. Xu, P. Du, K. Li, T. Gao, Z. Wang et al., Tracing methamphetamine and amphetamine sources in wastewater and receiving waters via concentration and enantiomeric profiling, Sci. Total Environ, pp.159-166, 2017.

I. Senta, I. Krizman, M. Ahel, and S. Terzic, Multiresidual analysis of emerging amphetamine-like psychoactive substances in wastewater and river water, J. Chromatogr. A, vol.1425, pp.204-212, 2015.

T. H. Boles and M. J. Wells, Analysis of amphetamine and methamphetamine in municipal wastewater influent and effluent using weak cation-exchange SPE and LC-MS/MS, Electrophoresis, vol.37, pp.3101-3108, 2016.

E. Zuccato, E. Gracia-lor, N. I. Rousis, A. Parabiaghi, I. Senta et al., Illicit drug consumption in school populations measured by wastewater analysis, Drug Alcohol Depend, vol.178, pp.285-290, 2017.

G. J. Mohr, M. Wenzel, F. Lehmann, and P. Czerney, A chromoreactand for optical sensing of amphetamines, Anal. Bioanal. Chem, vol.374, pp.399-402, 2002.

R. M. Burks, S. E. Pacquette, M. A. Guericke, M. V. Wilson, D. J. Symonsbergen et al., DETECHIP®: A sensor for drugs of abuse, J. Forensic Sci, vol.55, pp.723-727, 2010.

C. A. Bartlett, S. Taylor, C. Fernandez, C. Wanklyn, D. Burton et al., Disposable screen printed sensor for the electrochemical detection of methamphetamine in undiluted saliva, Chem. Cent. J, vol.10, pp.1-9, 2016.

R. Adams and K. A. Schowalter, Quinone Imides. X. Addition of Amines to pQuinonedibenzenesulfonimide, J. Am. Chem. Soc, vol.74, pp.2597-2602, 1952.

S. S. , E. M. Elnemma, H. Saad-s-m, E. Eman, and M. , Amphetamine Selective Electrodes Based on Dibenzo-18-crown-6 and Dibenzo-24-crown-8 Liquid Membranes, Anal. Chem, pp.2189-2192, 1989.

R. Kataky, P. S. Bates, and D. Parker, Functionalized ?-cyclodextrins as potentiometric chiral sensors, Analyst, vol.117, p.1313, 1992.

R. Kataky, D. Parker, and P. M. Kelly, Potentiometric, enantioselective sensors for alkyl and aryl ammonium ions of pharmaceutical significance, based on lipophilic cyclodextrins, Scand, J. Clin. Lab. Invest, vol.55, pp.409-419, 1995.

H. Zhang, L. Zhou, Z. Zhu, and C. Yang, Recent Progress in Aptamer-Based Functional Probes for Bioanalysis and Biomedicine, Chem.-A Eur, J, vol.22, pp.9886-9900, 2016.

A. Hayat and J. L. Marty, Aptamer based electrochemical sensors for emerging environmental pollutants, Front. Chem, vol.2, p.41, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01174750

B. Jiang, F. Li, C. Yang, J. Xie, Y. Xiang et al., Aptamer pseudoknot-functionalized electronic sensor for reagentless and single-step detection of immunoglobulin e in human serum, Anal. Chem, vol.87, pp.3094-3098, 2015.

K. Sefah, J. A. Phillips, X. Xiong, L. Meng, D. Van-simaeys et al., Nucleic acid aptamers for biosensors and bio-analytical applications, Analyst, vol.134, pp.1765-1775, 2009.

J. R. Kanwar, J. S. Shankaranarayanan, S. Gurudevan, and R. K. Kanwar, Aptamer-based therapeutics of the past, present and future: from the perspective of eye-related diseases, Drug Discov. Today, vol.19, pp.1309-1321, 2014.

Q. Shi, Y. Shi, Y. Pan, Z. Yue, H. Zhang et al., Colorimetric and bare eye determination of urinary methylamphetamine based on the use of aptamers and the salt-induced aggregation of unmodified gold nanoparticles, Microchim. Acta, vol.182, pp.505-511, 2014.

M. Ebrahimi, M. Johari-ahar, H. Hamzeiy, J. Barar, O. Mashinchian et al., Electrochemical impedance spectroscopic sensing of methamphetamine by a specific aptamer, BioImpacts, vol.2, pp.91-95, 2012.

G. Dimeski, T. Badrick, and A. S. John, Ion Selective Electrodes (ISEs) and interferences-A review, Anal. Lett, vol.411, pp.309-317, 2010.

L. A. Pioda, V. Stankova, and W. Simon, Highly Selective Potassium Ion Responsive LiquidMembrane Electrode, Anal. Lett, vol.2, pp.665-674, 1969.

D. Ammann, W. E. Morf, P. Anker, P. C. Meier, E. Pretsch et al., Neutral Carrier Based Ion-Selective Electrodes, Ion-Selective Electrode Rev, pp.3-92, 1983.

C. Moore and B. C. Pressman, Mechanism of action of valinomycin on mitochondria, Biochem. Biophys. Res. Commun, vol.15, pp.90505-90509, 1964.

P. Bühlmann, E. Pretsch, and E. Bakker, Carrier-based ion-selective electrodes and bulk optodes. 2. Ionophores for potentiometric and optical sensors, Chem. Rev, vol.98, pp.1593-1688, 1998.

A. Shatkay, Ion specific membranes as electrodes in determination of activity of calcium, Anal. Chem, vol.39, p.1057, 1967.

J. W. Ross, Calcium-selective electrodes with liquid ion exchanger, Science (80-. ), vol.156, pp.1378-1379, 1967.

E. Bakker, P. Bühlmann, and E. Pretsch, Carrier-Based Ion-Selective Electrodes and Bulk Optodes. 1. General Characteristics, Chem. Rev, vol.97, pp.3083-3132, 1997.

B. Philippe, Y. Setsuko, T. Koji, U. Kayoko, N. Seiichi et al., Studies on the phase boundaries and the significance of ionic sites of liquid membrane ion selective electrodes, Electroanalysis, vol.7, pp.811-816, 1995.

Y. Umezawa, CRC handbook of ion-selective electrodes: Selectivity coefficients, 1990.

E. Bakker, E. Pretsch, and P. Bühlmann, Selectivity of Potentiometric Ion Sensors, vol.72, pp.1127-1133, 2000.

F. Deyhimi, A method for the determination of potentiometric selectivity coefficients of ion selective electrodes in the presence of several interfering ions, Talanta, vol.50, pp.1129-1134, 1999.

K. N. Mikhelson, Ion-Selective Electrodes, Lecture Notes in Chemistry, vol.81, 2013.

C. J. Coetzee and H. Freiser, Anion-responsive electrodes based on ion association extraction systems, Anal. Chem, vol.40, p.2071, 1968.

H. Freiser, Ion-selective electrodes in analytical chemistry, 2012.

V. V. Egorov, P. L. Lyaskovski, I. V. Il'inchik, S. V. Vera, and V. A. Nazarov, Estimation of Ion Pairing Constants in Plasticized Poly(vinyl chloride) Membranes Using Segmented Sandwich Membranes Technique, Electroanalysis, vol.21, pp.2061-2070

M. A. Peshkova, A. I. Korobeynikov, and K. N. Mikhelson, Estimation of ion-site association

Y. Marcus, A. K. Sengupta, and J. A. Marinsky, Ion Exchange and Solvent Extraction: A Series of Advances, vol.17, 2005.

J. Rais, P. Selucký, and M. Kyr?, Extraction of alkali metals into nitrobenzene in the presence of univalent polyhedral borate anions, J. Inorg. Nucl. Chem, vol.38, pp.1376-1378, 1976.

A. Stoica, C. Vinas, and F. Teixidor, Cobaltabisdicarbollide anion receptor for enantiomerselective membrane electrodes, Chem. Commun, pp.4988-4990, 2009.

A. Saini, J. Gallardo-gonzalez, A. Baraket, I. Fuentes, C. Viñas et al., A novel potentiometric microsensor for real-time detection of Irgarol using the ionpair complex, Sensors Actuators, B Chem, vol.268, pp.164-169, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01858877

C. A. Reed, Carboranes: A New Class of Weakly Coordinating Anions for Strong Electrophiles, Oxidants, and Superacids, vol.31, pp.133-139, 1998.

S. H. Strauss, The search for larger and more weakly coordinating anions, Chem. Rev, vol.93, pp.927-942, 1993.

I. B. Sivaev and V. I. Bregadze, Chemistry of cobalt bis (dicarbollides). A review, vol.64, pp.783-805, 1999.

J. Plesek, K. Base, F. Mares, F. Hanousek, and S. Hermanek, Potential Uses Of Metallocarborane Sadnwich Anions For Analysis, Characterization And Isolation Of Various Cations and Organic Bases, Collect. Czech. Chem. Commun, vol.49, pp.2776-2789, 1983.

C. Masalles, F. Teixidor, S. Borrós, and C. Viñas, Cobaltabisdicarbollide anion [Co(C2B9H11)2]-as doping agent on intelligent membranes for ion capture, J. Organomet. Chem, vol.657, pp.239-246, 2002.

O. A. Biloivan, S. V. Dzyadevych, A. V. El'skaya, N. Jaffrezic-renault, N. Zine et al., Development of bi-enzyme microbiosensor based on solid-contact ionselective microelectrodes for protein detection, Sensors Actuators B Chem, vol.123, pp.1096-1100, 2007.

O. A. Biloivan, S. V. Verevka, S. V. Dzyadevych, N. Zine, J. Bausells et al., Protein detection based on microelectrodes with the PPy[3,3-Co(1,2-C2B9H11)]2 solid contact and immobilized proteinases: Preliminary investigations, Mater. Sci. Eng. C, vol.26, pp.574-577, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00141450

I. A. Marques-de-oliveira, M. Pla-roca, L. Escriche, J. Casabó, N. Zine et al., Novel all-solid-state copper(II) microelectrode based on a dithiomacrocycle as a neutral carrier, Electrochim. Acta, vol.51, pp.5070-5074, 2006.

I. A. Marques-de-oliveira, D. Risco, F. Vocanson, E. Crespo, F. Teixidor et al., Sodium ion sensitive microelectrode based on a p-tert-butylcalix[4]arene ethyl ester, Sensors Actuators B Chem, vol.130, pp.295-299, 2008.
URL : https://hal.archives-ouvertes.fr/ujm-00356865

N. Zine, J. Bausells, F. Vocanson, R. Lamartine, Z. Asfari et al.,

J. Oliveira, A. Samitier, and . Errachid, Potassium-ion selective solid contact microelectrode based on a novel 1,3-(di-4-oxabutanol)-calix[4]arene-crown-5 neutral carrier, Electrochim. Acta, vol.51, pp.5075-5079, 2006.
URL : https://hal.archives-ouvertes.fr/hal-00160978

N. Zine, J. Bausells, A. Ivorra, J. Aguiló, M. Zabala et al., Hydrogen-selective microelectrodes based on silicon needles, Sensors Actuators B Chem, vol.91, pp.76-82, 2003.

J. Gallardo-gonzález, A. Baraket, S. Boudjaoui, A. Streklas, F. Teixidor et al., A Highly Sensitive Potentiometric Amphetamine Microsensor Based on All-SolidState Membrane Using a New Ion-Par Complex, Proc. Eurosensors Conf, vol.1, pp.2-5, 2017.

E. Malinowska, L. Gawart, P. Parzuchowski, G. Rokicki, and Z. Brzózka, Novel approach of immobilization of calix[4]arene type ionophore in 'self-plasticized' polymeric membrane, Anal. Chim. Acta, vol.421, pp.999-1004, 2000.

G. J. Moody, B. Saad, and J. D. Thomas, Glass transition temperatures of poly(vinyl chloride) and polyacrylate materials and calcium ion-selective electrode properties, Analyst, vol.112, pp.1143-1147, 1987.

M. De-los, A. Arada-pérez, L. Marí-n-pérez, J. Quintana, and M. Yazdani-pedram, Influence of different plasticizers on the response of chemical sensors based on polymeric membranes for nitrate ion determination, Sensors Actuators B Chem, vol.89, pp.262-268, 2003.

R. Eugster, T. Rosatzin, B. Rusterholz, B. Aebersold, U. Pedrazza et al., Plasticizers for liquid polymeric membranes of ion-selective chemical sensors, Anal. Chim. Acta, vol.289, pp.1-13, 1994.

S. S. , E. M. Elnemma, H. Saad-s-m, E. Eman, and M. , Amphetamine Selective Electrodes Based on Dibenzo-18-crown-6 and Dibenzo-24-crown-8 Liquid Membranes, Anal. Chem, pp.2189-2192, 1989.

J. Gallardo-gonzález, A. Baraket, A. Bonhomme, N. Zine, M. Sigaud et al., Sensitive Potentiometric Determination of Amphetamine with an All-Solid-state Micro IonSelective-electrode, Anal. Lett, vol.58, pp.348-358, 2018.

K. N. Mikhelson, Ion-Selective Electrodes, Lecture Notes in Chemistry, vol.81, 2013.

R. Matesic-puac, M. Sak-bosnar, M. Bilic, and B. S. Grabaric, Potentiometric determination of anionic surfactants using a new ion-pair-based all-solid-state surfactant sensitive electrode, Sensors Actuators, B Chem, vol.106, pp.221-228, 2005.

N. Zine, J. Bausells, F. Vocanson, R. Lamartine, Z. Asfari et al.,

N. Zine, J. Bausells, A. Ivorra, J. Aguiló, M. Zabala et al., Hydrogen-selective microelectrodes based on silicon needles, Sensors Actuators B Chem, vol.91, pp.76-82, 2003.

M. C. , B. S. , V. C. , and T. F. , Are Low-Coordinating Anions of Interest as Doping Agents in Organic Conducting Polymers?, Adv. Mater, vol.12, pp.1199-1202, 2000.

A. J. Heeger, S. Kivelson, J. R. Schrieffer, and W. P. Su, Solitons in conducting polymers, Rev. Mod. Phys, vol.60, pp.781-850, 1988.

H. Freiser, Ion-selective electrodes in analytical chemistry, 2012.

G. Dimeski, T. Badrick, and A. S. John, Ion Selective Electrodes (ISEs) and interferences-A review, Anal. Lett, vol.411, pp.309-317, 2010.

E. Bakker, P. Bühlmann, and E. Pretsch, Carrier-Based Ion-Selective Electrodes and Bulk Optodes. 1. General Characteristics, Chem. Rev, vol.97, pp.3083-3132, 1997.

J. L. Lima and A. A. Machado, Procedure for the construction of all-solid-state PVC membrane electrodes, Analyst, vol.111, pp.799-802, 1986.

G. Baum and M. Lynn, Polymer membrane electrodes: Part II. A potassium ion-selective membrane electrode, Anal. Chim. Acta, vol.65, issue.01, p.82506, 1973.

B. E. Saxberg and B. R. Kowalski, Generalized standard addition method, Anal. Chem, vol.51, pp.1031-1038, 1979.

E. Bakker, E. Pretsch, and P. Bühlmann, Selectivity of Potentiometric Ion Sensors, vol.72, pp.1127-1133, 2000.

P. Bühlmann, E. Pretsch, and E. Bakker, Carrier-based ion-selective electrodes and bulk optodes. 2. Ionophores for potentiometric and optical sensors, Chem. Rev, vol.98, pp.1593-1688, 1998.

P. D. Grootenhuis and P. A. Kollman, Molecular mechanics and dynamics studies of crown ethercation interactions: free energy calculations on the cation selectivity of dibenzo-18-crown-6 and dibenzo-30-crown-10, J. Am. Chem. Soc, vol.111, pp.2152-2158, 1989.

S. Schneider and F. Meis, Analysis of illicit cocaine and heroin samples seized in Luxembourg from, Forensic Sci. Int, vol.212, pp.242-246, 2005.

A. Stoica, C. Vinas, and F. Teixidor, Cobaltabisdicarbollide anion receptor for enantiomerselective membrane electrodes, Chem. Commun, pp.4988-4990, 2009.

K. Graniczkowska, M. Pütz, F. M. Hauser, S. De, N. Saeger et al., Capacitive sensing of N-formylamphetamine based on immobilized molecular imprinted polymers, Biosens. drug consumption in school populations measured by wastewater analysis, Drug Alcohol Depend, vol.178, pp.285-290, 2017.

A. Baraket, M. Lee, N. Zine, N. Yaakoubi, J. Bausells et al., A flexible electrochemical micro lab-on-chip : application to the detection of interleukin-10, Microchim. Acta, vol.183, pp.2155-2162, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01546534

L. Tang and N. Y. Lee, A facile route for irreversible bonding of plastic-PDMS hybrid microdevices at room temperature, Lab Chip, vol.10, pp.1274-1280, 2010.

A. Baraket, N. Zine, M. Lee, J. Bausells, N. Jaffrezic-renault et al., Development of a flexible microfluidic system based on a simple and reproducible sealing process between polymers and poly ( dimethylsiloxane ), Microelectron. Eng, vol.111, pp.332-338, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00860345

G. M. Whitesides, E. Ostuni, X. Jiang, and D. E. Ingber, Soft Lithography in Biology and Biochemistry, vol.3, pp.335-73, 2001.

Y. Xia and G. M. Whitesides, Soft Lithography, Angew. Chemie Int. Ed, vol.37, pp.550-575, 1998.

M. S. Ghauri and J. D. Thomas, Evaluation of an ammonium ionophore for use in poly(vinyl chloride) membrane ion-selective electrodes: solvent mediator effects, Analyst, vol.119, p.2323, 1994.

O. Davies, G. Moody, and J. Thomas, Optimisation of poly (vinyl chloride) matrix membrane ionselective electrodes for ammonium ions, Analyst, vol.113, pp.497-500, 1988.

B. E. Saxberg and B. R. Kowalski, Generalized standard addition method, Anal. Chem, vol.51, pp.1031-1038, 1979.

S. Nurani, H. Abdul, and W. Lau, Detection of contaminants in water supply : A review on state-ofthe-art monitoring technologies and their applications, Sensors Actuators B. Chem, vol.255, pp.2657-2689, 2017.

S. Castiglioni, K. Thomas, B. Kasprzyk-hordern, L. Vandam, and P. Grif, Science of the Total Environment Testing wastewater to detect illicit drugs : State of the art , potential and research needs, vol.487, pp.613-620, 2014.

S. D. Melvin and F. D. Leusch, Removal of trace organic contaminants from domestic wastewater: A meta-analysis comparison of sewage treatment technologies, Environ. Int, pp.183-188, 2016.

S. Gaw and C. N. Glover, A case of contagious toxicity ? Isoprostanes as potential emerging contaminants of concern, Sci. Total Environ, pp.295-298, 2016.

J. W. Zabinski, K. J. Pieper, and J. M. Gibson, A Bayesian Belief Network Model Assessing the Risk to Wastewater Workers of Contracting Ebola Virus Disease During an Outbreak, Risk Anal, vol.38, pp.376-391, 2017.

B. Petrie, R. Barden, and B. , Kasprzyk-hordern, A review on emerging contaminants in wastewaters and the environment : Current knowledge , understudied areas and recommendations for future monitoring, Water Res, vol.72, pp.3-27, 2015.

L. Rizzo, C. Manaia, C. Merlin, T. Schwartz, C. Dagot et al., Urban wastewater treatment plants as hotspots for antibiotic resistant bacteria and genes spread into the environment : A review, Sci. Total Environ, vol.447, pp.345-360, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01507505

L. He, G. Ying, Y. Liu, H. Su, J. Chen et al., Discharge of swine wastes risks water quality and food safety : Antibiotics and antibiotic resistance genes from swine sources to the receiving environments, Environ. Int, pp.210-219, 2016.

A. K. Awasthi, X. Zeng, and J. Li, Environmental pollution of electronic waste recycling in India : A critical review, Environ. Pollut, vol.211, pp.259-270, 2016.

L. M. Keith, Environmental sampling and analysis: a practical guide, 1991.

L. H. Keith, Environmental sampling: A summary, Environ. Sci. Technol, vol.24, pp.610-617, 1990.

, Assesing ilicit drugs in wastewater: advances in wastwater-based drug epidemiology, Publication Office of the European Union, 2016.

M. Östman, J. Fick, E. Näsström, and R. H. Lindberg, A snapshot of illicit drug use in Sweden acquired through sewage water analysis, Sci. Total Environ, vol.472, pp.862-871, 2014.

A. O. Maldaner, L. L. Schmidt, M. A. Locatelli, W. F. Jardim, F. F. Sodré et al., Estimating cocaine consumption in the brazilian federal district (FD) by sewage analysis, J. Braz. Chem. Soc, vol.23, pp.861-867, 2012.

K. V. Thomas, L. Bijlsma, S. Castiglioni, A. Covaci, E. Emke et al.,

J. B. Pico, M. Quintana, J. Reid, S. Rieckermann, A. L. Terzic et al., Comparing illicit drug use in 19 European cities through sewage analysis, Sci. Total Environ, vol.432, pp.432-439, 2012.

C. Ort, A. L. Van-nuijs, J. D. Berset, L. Bijlsma, S. Castiglioni et al.,

M. Racamonde, J. Reid, S. Slobodnik, N. Terzic, K. V. Thomaidis et al., Spatial differences and temporal changes in illicit drug use in Europe quantified by wastewater analysis, Addiction, vol.109, pp.1338-1352, 2014.

A. Assaad, S. Pontvianne, and M. N. Pons, Assessment of organic pollution of an industrial river by synchronous fluorescence and UV-vis spectroscopy: the Fensch River, Environ. Monit. Assess, p.189, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01925791

M. J. Reid, L. Derry, and K. V. Thomas, Analysis of new classes of recreational drugs in sewage: Synthetic cannabinoids and amphetamine-like substances, Drug Test. Anal, vol.6, pp.72-79, 2014.

M. C. Gavin, J. N. Solomon, and S. G. Blank, Measuring and monitoring illegal use of natural resources, Conserv. Biol, vol.24, pp.89-100, 2010.

X. Shen, H. Chang, D. Sun, L. Wang, and F. Wu, Trace analysis of 61 natural and synthetic progestins in river water and sewage effluents by ultra-high performance liquid chromatography-tandem mass spectrometry, Water Res, vol.133, pp.142-152, 2018.

D. W. Lachenmeier and J. Rehm, Comparative risk assessment of alcohol, tobacco, cannabis and other illicit drugs using the margin of exposure approach, Sci. Rep, vol.5, pp.1-7, 2015.

J. Li, L. Hou, P. Du, J. Yang, K. Li et al., Estimation of amphetamine and methamphetamine uses in Beijing through sewage-based analysis, Sci. Total Environ, vol.490, pp.724-732, 2014.

N. Mastroianni, E. López-garcía, C. Postigo, D. Barceló, M. López-de et al., Five-year monitoring of 19 illicit and legal substances of abuse at the inlet of a wastewater treatment plant in Barcelona (NE Spain) and estimation of drug consumption patterns and trends, Sci. Total Environ, vol.609, pp.916-926, 2017.

T. Rodríguez-Álvarez, R. Rodil, M. Rico, R. Cela, and J. B. Quintana, Assessment of local tobacco consumption by liquid chromatography-tandem mass spectrometry sewage analysis of nicotine and its metabolites, cotinine and trans-3?-hydroxycotinine, after enzymatic deconjugation, Anal. Chem, vol.86, pp.10274-10281, 2014.

J. Gallardo-gonzalez, A. Saini, A. Baraket, S. Boudjaoui, A. Alcácer et al., A highly selective potentiometric amphetamine microsensor based on all-solid-state membrane using a new ion-pair complex, Sensors Actuators, B Chem, vol.266, pp.823-829, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01803541

, Under review/preparation

J. Gallardo-gonzalez, A. Baraket, S. Boudjaoui, Y. Clément, N. Zine et al., Novel impedimetric amphetamine-selective microsensor based on the electrochemical grafting of in-situ generated diazoted amphetamine ionophore, 2018.

J. Gallardo-gonzalez, A. Baraket, S. Boudjaoui, T. Metzner, F. Hauser et al.,

A. Zine, A. Streklas, J. Alcácer, A. Bausells-, and . Errachid, A Fully Integrated Passive Microfluidic Lab-on-a-Chip for Real-Time Electrochemical Detection of Ammonium: Sewage Applications, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01937283

J. Gallardo-gonzalez, A. Baraket, S. Boudjaoui, F. Palacio, F. Solano et al., A miniature and autarkic Sample Storage Unit for the in-situ collection of forensic evidences in the sewer network, 2018.

J. Gallardo-gonzalez, A. Baraket, A. Bonhomme, N. Zine, M. Sigaud et al., Highly sensitive potentiometric ?ISE for amphetamine detection using dibenzo-18-crown-6 as charge carrier. Oral presentation at « 10èmes JOURNEES MAGHREB-EUROPE. Les Materieux et leurs applications aux dispositif capteurs, 2016.

J. Gallardo-gonzalez, A. Baraket, S. Boudjaoui, Y. Clément, A. Alcácer et al.,

J. Zine, A. Bausells, and . Errachid, A highly selective potentiometric amphetamine microsensor based on all-solid-state membrane using a new ion-pair complex, Eurosensors Conference, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01803541

J. Gallardo-gonzalez, A. Baraket, S. Boudjaoui, Y. Clément, A. Alcácer et al.,

J. Zine, A. Bausells, and . Errachid, Highly Sensitive Impedimetric Ion Selective ?Electrode for Amphetamine Detection. Oral presentation at "10th International Workshop on Impedance Spectroscopy, 2017.

J. Gallardo-gonzalez, S. Boudjaoui, A. Baraket, Y. Cément, N. Zine et al.,

, Real Time Electrochemical Measurements in Sewage applications Poster presentation at "International Conference on Micro and Nano Engineering, 2017.

S. Boudjaoui, J. Gallardo-gonzalez, A. Baraket, Y. Cément, N. Zine et al., Acetone sensor based on electro-addresing chitosan/zeolites Ag-ZSM5 onto gold ?IDEs: Application to diagnostic of heart failure Poster presentation at, 2017.

J. Gallardo-gonzalez, A. Baraket, S. Boudjaoui, Y. Clément, N. Zine et al., Novel Amphetamine-Selective Microsensor Based on the Electrochemical Grafting of In-Situ Generated Amphetamine Diazoted-Ionophore. Poster presentation at "28 th Anniversary World Congress of Biosensors, BIOS, 2018.

S. Boudjaoui, J. Gallardo-gonzalez, A. Baraket, Y. Clément, N. Zine et al.,

J. Streklas, A. Bausells, and . Errachid, Multiple breath biomarkers detection by a novel conductometric sensor based on combination of nanomaterials : application to heart failure, BIOS, 2018.