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Analytical Letters Volume 36, 2003 - Issue 14
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SENSORS AND BIOSENSORS

Determination of Ammonium Ion Employing an Electronic Tongue Based on Potentiometric Sensors

Jordi Gallardo Sensors and Biosensors Group, Chemistry Department, Autonomous University of Barcelona, Catalonia, Spain
,
Salvador Alegret Sensors and Biosensors Group, Chemistry Department, Autonomous University of Barcelona, Catalonia, Spain
,
Marco Antonio de Román Bioelectronics Section, CINVESTAV, Mexico City, Mexico
,
Roberto Muñoz Bioelectronics Section, CINVESTAV, Mexico City, Mexico
,
Pablo Rogelio Hernández Bioelectronics Section, CINVESTAV, Mexico City, Mexico
,
Lorenzo Leija Bioelectronics Section, CINVESTAV, Mexico City, Mexico
&
Dr. Manuel del Valle Sensors and Biosensors Group, Chemistry Department, Autonomous University of Barcelona, Catalonia, SpainCorrespondence[email protected]
 show all
Pages 2893-2908 | Received 16 Jun 2003, Accepted 27 Jul 2003, Published online: 02 Feb 2007

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Manuel Gutiérrez, Juan Manuel Gutiérrez, Salvador Alegret, Lorenzo Leija, Pablo Rogelio Hernández, Liliana Favari, Roberto Muñoz & Manuel Del Valle. (2008) Remote environmental monitoring employing a potentiometric electronic tongue. International Journal of Environmental Analytical Chemistry 88:2, pages 103-117.
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Laura Moreno‐Barón, Raúl Cartas, Arben Merkoçi, Salvador Alegret, Juan M. Gutiérrez, Lorenzo Leija, Pablo R. Hernandez, Roberto Muñoz & Manuel del Valle. (2005) Data Compression for a Voltammetric Electronic Tongue Modelled with Artificial Neural Networks. Analytical Letters 38:13, pages 2189-2206.
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Articles from other publishers (48)

Renato L. Gil, Célia G. Amorim & Maria Cuartero. (2022) Addressing the Detection of Ammonium Ion in Environmental Water Samples via Tandem Potentiometry–Ion Chromatography. ACS Measurement Science Au 2:3, pages 199-207.
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Mandresy Ivan Ny Hanitra, Francesca Criscuolo, Sandro Carrara & Giovanni De Micheli. (2021) Real-Time Multi-Ion-Monitoring Front-End With Interference Compensation by Multi-Output Support Vector Regressor. IEEE Transactions on Biomedical Circuits and Systems 15:5, pages 1093-1106.
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Ivan Ny Hanitra, Francesca Criscuolo, Sandro Carrara & Giovanni De Micheli. (2021) Multi-Ion-Sensing Emulator and Multivariate Calibration Optimization by Machine Learning Models. IEEE Access 9, pages 46821-46836.
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Havva Bekiroğlu Ataş, Adnan Kenar & Mustafa Taştekin. (2020) An electronic tongue for simultaneous determination of Ca2+, Mg2+, K+ and NH4+ in water samples by multivariate calibration methods. Talanta 217, pages 121110.
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Adem ASAN. (2020) Akış Enjeksiyon Analiz Yönteminde Detektör Olarak Potansiyometrik Sensör Kullanarak Çevre Numunelerinde Sodyum İyonu Tayini. Erzincan Üniversitesi Fen Bilimleri Enstitüsü Dergisi 13:2, pages 655-668.
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María Cuartero, Noemi Colozza, Bibiana M. Fernández-Pérez & Gastón A. Crespo. (2020) Why ammonium detection is particularly challenging but insightful with ionophore-based potentiometric sensors – an overview of the progress in the last 20 years. The Analyst 145:9, pages 3188-3210.
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Dmitry Kirsanov, Daniel Correa, Gabriel Gaal, Antonio Riul, Maria Braunger, Flavio Shimizu, Osvaldo Oliveira, Tao Liang, Hao Wan, Ping Wang, Ekaterina Oleneva & Andrey Legin. (2019) Electronic Tongues for Inedible Media. Sensors 19:23, pages 5113.
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Adem ASAN. (2019) Akış Enjeksiyon Analiz Yönteminde Dedektör Olarak Potansiyometrik Sensör Kullanarak Çevre Numunelerinde Kalsiyum İyonu TayiniDetermination of Calcium Ion in Environmental Samples Using a Potentiometric Sensor as a Detector in Flow Injection Analysis Method. International Journal of Pure and Applied Sciences 5:1, pages 37-45.
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D. Brynn Hibbert. 2019. Comprehensive Chemometrics. Comprehensive Chemometrics 149 192 .
Manel del Valle. 2017. Materials for Chemical Sensing. Materials for Chemical Sensing 227 265 .
Fernanda Nunes Ferreira, Julio Carlos Afonso, Fernanda Veronesi Marinho Pontes, Manuel Castro Carneiro, Arnaldo Alcover Neto, Maria Luiza Bragança Tristão & Maria Inês Couto Monteiro. (2016) Determination of low-molecular-weight amines and ammonium in saline waters by ion chromatography after their extraction by steam distillation. Journal of Separation Science 39:8, pages 1454-1460.
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J. E. Fitzgerald & H. Fenniri. (2016) Biomimetic cross-reactive sensor arrays: prospects in biodiagnostics. RSC Advances 6:84, pages 80468-80484.
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Amy V. Mueller & Harold F. Hemond. (2016) Statistical generation of training sets for measuring NO 3 − , NH 4 + and major ions in natural waters using an ion selective electrode array . Environmental Science: Processes & Impacts 18:5, pages 590-599.
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Deivy Wilson, Salvador Alegret & Manel del Valle. (2015) Simultaneous Titration of Ternary Mixtures of Pb(II), Cd(II) and Cu(II) with Potentiometric Electronic Tongue Detection. Electroanalysis 27:2, pages 336-342.
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Aitor Mimendia, Juan M. Gutiérrez, Josep M. Alcañiz & Manel del Valle. (2014) Discrimination of Soils and Assessment of Soil Fertility Using Information from an Ion Selective Electrodes Array and Artificial Neural Networks. CLEAN - Soil, Air, Water 42:12, pages 1808-1815.
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Xavier Ceto & Manel del Valle. (2014) Application of electronic tongues in the qualitative and quantitative analysis of beers. Application of electronic tongues in the qualitative and quantitative analysis of beers.
Amy V. Mueller & Harold F. Hemond. (2013) Extended artificial neural networks: Incorporation of a priori chemical knowledge enables use of ion selective electrodes for in-situ measurement of ions at environmentally relevant levels. Talanta 117, pages 112-118.
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Xavier Cetó, Manuel Gutiérrez-Capitán, Daniel Calvo & Manel del Valle. (2013) Beer classification by means of a potentiometric electronic tongue. Food Chemistry 141:3, pages 2533-2540.
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Manel del Valle, Xavier Cetó & Manuel Gutiérrez-Capitán. 2013. Portable Biosensing of Food Toxicants and Environmental Pollutants. Portable Biosensing of Food Toxicants and Environmental Pollutants 339 372 .
L. Nuñez, X. Cetó, M.I. Pividori, M.V.B. Zanoni & M. del Valle. (2013) Development and application of an electronic tongue for detection and monitoring of nitrate, nitrite and ammonium levels in waters. Microchemical Journal 110, pages 273-279.
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Qingjun Liu, Fenni Zhang, Diming Zhang, Ning Hu, K. Jimmy Hsia & Ping Wang. (2013) Extracellular potentials recording in intact taste epithelium by microelectrode array for a taste sensor. Biosensors and Bioelectronics 43, pages 186-192.
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Mihaela Tutulea-Anastasiu, Deivy Wilson, Manel del Valle, Cristina Schreiner & Igor Cretescu. (2013) A Solid-Contact Ion Selective Electrode for Copper(II) Using a Succinimide Derivative as Ionophore. Sensors 13:4, pages 4367-4377.
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Juan Manuel Gutiérrez, Zouhair Haddi, Aziz Amari, Benachir Bouchikhi, Aitor Mimendia, Xavier Cetó & Manel del Valle. (2013) Hybrid electronic tongue based on multisensor data fusion for discrimination of beers. Sensors and Actuators B: Chemical 177, pages 989-996.
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Deivy Wilson, Juan Manuel Gutiérrez, Salvador Alegret & Manel del Valle. (2012) Simultaneous Determination of Zn(II), Cu(II), Cd(II) and Pb(II) in Soil Samples Employing an Array of Potentiometric Sensors and an Artificial Neural Network Model. Electroanalysis 24:12, pages 2249-2256.
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J. M. Gutierrez, L. Moreno-Baron, X. Ceto, A. Mimendia & M. del Valle. (2012) Data fusion in electronic tongue for qualitative analysis of beers. Data fusion in electronic tongue for qualitative analysis of beers.
Deivy Wilson, Mohammed N. Abbas, Abdel Latief A. Radwan & Manel del Valle. (2011) Potentiometric Electronic Tongue to Resolve Mixtures of Sulfide and Perchlorate Anions. Sensors 11:3, pages 3214-3226.
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J. M. Gutierrez, A. Mimendia, R. Munoz, L. Leija, P. R. Hernandez & M. del Valle. (2011) Monitoring of environmental systems using electronic tongues as sensor networks. Monitoring of environmental systems using electronic tongues as sensor networks.
Maria J. Ruedas-Rama & Elizabeth A. H. Hall. (2010) Analytical Nanosphere Sensors Using Quantum Dot−Enzyme Conjugates for Urea and Creatinine. Analytical Chemistry 82:21, pages 9043-9049.
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Deivy Wilson, María de los Ángeles Arada, Salvador Alegret & Manel del Valle. (2010) Lead(II) ion selective electrodes with PVC membranes based on two bis-thioureas as ionophores: 1,3-bis(N′-benzoylthioureido)benzene and 1,3-bis(N′-furoylthioureido)benzene. Journal of Hazardous Materials 181:1-3, pages 140-146.
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A. Mimendia, J.M. Gutiérrez, L. Leija, P.R. Hernández, L. Favari, R. Muñoz & M. del Valle. (2010) A review of the use of the potentiometric electronic tongue in the monitoring of environmental systems. Environmental Modelling & Software 25:9, pages 1023-1030.
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D.B. Hibbert & N. Armstrong. (2009) An introduction to Bayesian methods for analyzing chemistry data. Chemometrics and Intelligent Laboratory Systems 97:2, pages 211-220.
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F. Coldur, M. Andac, I. Isildak & T. Saka. (2009) A micro-sized PVC membrane Li+-selective electrode without internal filling solution and its medical applications. Journal of Electroanalytical Chemistry 626:1-2, pages 30-35.
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D.B. Hibbert. 2009. Comprehensive Chemometrics. Comprehensive Chemometrics 377 424 .
R. Cartas, L. Moreno-Barón, A. Merkoçi, S. Alegret, M. del Valle, J. M. Gutiérrez, L. Leija, P. R. Hernandez & R. Muñoz. 2009. Biologically Inspired Signal Processing for Chemical Sensing. Biologically Inspired Signal Processing for Chemical Sensing 137 167 .
M. Conceição B. S. M. Montenegro & Alberto N. Araújo. 2008. Advances in Flow Analysis. Advances in Flow Analysis 425 454 .
Manuel Gutiérrez, Salvador Alegret, Rafaela Cáceres, Jaume Casadesús, Oriol Marfà & Manuel del Valle. (2008) Nutrient Solution Monitoring in Greenhouse Cultivation Employing a Potentiometric Electronic Tongue. Journal of Agricultural and Food Chemistry 56:6, pages 1810-1817.
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Montserrat Cortina, Christina Ecker, Daniel Calvo & Manuel del Valle. (2008) Automated electronic tongue based on potentiometric sensors for the determination of a trinary anionic surfactant mixture. Journal of Pharmaceutical and Biomedical Analysis 46:2, pages 213-218.
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Manuel Gutiérrez, Salvador Alegret & Manel del Valle. (2008) Bioelectronic tongue for the simultaneous determination of urea, creatinine and alkaline ions in clinical samples. Biosensors and Bioelectronics 23:6, pages 795-802.
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Daniel Calvo, Michael Größl, Montserrat Cortina & Manuel del Valle. (2007) Automated SIA System Using an Array of Potentiometric Sensors for Determining Alkaline‐Earth Ions in Water. Electroanalysis 19:6, pages 644-651.
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Patrycja Ciosek & Wojciech Wróblewski. (2007) Sensor arrays for liquid sensing – electronic tongue systems. The Analyst 132:10, pages 963.
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Manuel Gutiérrez, Daniel Calvo & Manel del Valle. 2007. Electrochemical Sensor Analysis. Electrochemical Sensor Analysis e311 e330 .
Manel del Valle. 2007. Electrochemical Sensor Analysis. Electrochemical Sensor Analysis 721 753 .
A. Gutés, F. Céspedes, R. Cartas, S. Alegret, M. del Valle, J.M. Gutierrez & R. Muñoz. (2006) Multivariate calibration model from overlapping voltammetric signals employing wavelet neural networks. Chemometrics and Intelligent Laboratory Systems 83:2, pages 169-179.
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M. Cortina, A. Duran, S. Alegret & M. del Valle. (2006) A sequential injection electronic tongue employing the transient response from potentiometric sensors for anion multidetermination. Analytical and Bioanalytical Chemistry 385:7, pages 1186-1194.
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L. Moreno-Barón, R. Cartas, A. Merkoçi, S. Alegret, M. del Valle, L. Leija, P.R. Hernandez & R. Muñoz. (2006) Application of the wavelet transform coupled with artificial neural networks for quantification purposes in a voltammetric electronic tongue. Sensors and Actuators B: Chemical 113:1, pages 487-499.
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Alejandro Durán, Montserrat Cortina, Lya Velasco, José Rodríguez, Salvador Alegret & Manuel Del Valle. (2005) Virtual Instrument for an Automated Potentiometric e-Tongue Employing the SIA Technique. Sensors 6:1, pages 19-29.
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J. Gallardo, S. Alegret, R. Munoz, L. Leija, P. Ro. Hernandez & M. del Valle. (2005) Use of an Electronic Tongue Based on All‐Solid‐State Potentiometric Sensors for the Quantitation of Alkaline Ions. Electroanalysis 17:4, pages 348-355.
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Jordi Gallardo, Salvador Alegret & Manuel del Valle. (2004) A flow-injection electronic tongue based on potentiometric sensors for the determination of nitrate in the presence of chloride. Sensors and Actuators B: Chemical 101:1-2, pages 72-80.
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