CRESPO, Gaston A.

Publication List

[2]
R. Cánovas, M. Cuartero and G. A. Crespo, "Modern creatinine (Bio)sensing : Challenges of point-of-care platforms," Biosensors & bioelectronics, vol. 130, pp. 110-124, 2019.
[3]
B. Endrodi et al., "Selective Hydrogen Evolution on Manganese Oxide Coated Electrodes : New Cathodes for Sodium Chlorate Production," ACS Sustainable Chemistry & Engineering, vol. 7, no. 14, pp. 12170-12178, 2019.
[4]
M. Parrilla et al., "Wearable All-Solid-State Potentiometric Microneedle Patch for Intradermal Potassium Detection," Analytical Chemistry, vol. 91, no. 2, pp. 1578-1586, 2019.
[6]
M. Parrilla, M. Cuartero and G. A. Crespo, "Wearable potentiometric ion sensors," TrAC. Trends in analytical chemistry, vol. 110, pp. 303-320, 2019.
[7]
M. C. Crespi et al., "Agarose hydrogel containing immobilized pH buffer microemulsion without increasing permselectivity," Talanta : The International Journal of Pure and Applied Analytical Chemistry, vol. 177, pp. 191-196, 2018.
[8]
M. Cuartero and G. A. Crespo, "All-solid-state potentiometric sensors : A new wave for in situ aquatic research," Current Opinion in Electrochemistry, vol. 10, pp. 98-106, 2018.
[9]
T. Paulraj, G. Crespo and A. Svagan, "Cage-like cellulose nanofiber-based microcapsules for electrochemical and biosensor applications," Abstract of Papers of the American Chemical Society, vol. 256, 2018.
[11]
T. Paulraj et al., "Porous Cellulose Nanofiber-Based Microcapsules for Biomolecular Sensing," ACS Applied Materials and Interfaces, vol. 10, no. 48, pp. 41146-41154, 2018.
[13]
M. Cuartero et al., "Electrochemical Mechanism of Ferrocene-Based Redox Molecules in Thin Film Membrane Electrodes," Electrochimica Acta, vol. 238, pp. 357-367, 2017.
[14]
N. Pankratova et al., "Fluorinated tripodal receptors for potentiometric chloride detection in biological fluids," Biosensors and Bioelectronics, vol. 99, pp. 70-76, 2017.
[15]
M. Cuartero et al., "In Situ Detection of Species Relevant to the Carbon Cycle in Seawater with Submersible Potentiometric Probes," ENVIRONMENTAL SCIENCE & TECHNOLOGY LETTERS, vol. 4, no. 10, pp. 410-415, 2017.
[16]
N. Pankratova et al., "In-Line Acidification for Potentiometric Sensing of Nitrite in Natural Waters," Analytical Chemistry, vol. 89, no. 1, pp. 571-575, 2017.
[18]
G. A. Crespo, "Recent Advances in Ion-selective membrane electrodes for in situ environmental water analysis," Electrochimica Acta, vol. 245, pp. 1023-1034, 2017.
[19]
R. Athavale et al., "Robust Solid-Contact Ion Selective Electrodes for High-Resolution In Situ Measurements in Fresh Water Systems," ENVIRONMENTAL SCIENCE & TECHNOLOGY LETTERS, vol. 4, no. 7, pp. 286-291, 2017.
[20]
D. J. Yuan et al., "Voltammetric Thin-Layer Ionophore-Based Films : Part 2. Semi-Empirical Treatment," Analytical Chemistry, vol. 89, no. 1, pp. 595-602, 2017.
[21]
D. J. Yuan et al., "Voltammetric Thin-Layer lonophore-Based Films : Part 1. Experimental Evidence and Numerical Simulations," Analytical Chemistry, vol. 89, no. 1, pp. 586-594, 2017.
[23]
M. Cuartero et al., "Electrochemical Ion Transfer with Thin Films of Poly(3-octylthiophene)," Analytical Chemistry, vol. 88, no. 13, pp. 6939-6946, 2016.
[24]
[25]
M. G. Afshar, G. A. Crespo and E. Bakker, "Flow Chronopotentiometry with Ion-Selective Membranes for Cation, Anion, and Polyion Detection," Analytical Chemistry, vol. 88, no. 7, pp. 3945-3952, 2016.
[26]
M. Cuartero, G. A. Crespo and E. Bakker, "Ionophore-Based Voltammetric Ion Activity Sensing with Thin Layer Membranes," Analytical Chemistry, vol. 88, no. 3, pp. 1654-1660, 2016.
[27]
[28]
S. Jansod et al., "Phenytoin speciation with potentiometric and chronopotentiometric ion-selective membrane electrodes," Biosensors & bioelectronics, vol. 79, pp. 114-120, 2016.
[29]
M. Cuartero, G. A. Crespo and E. Bakker, "Polyurethane Ionophore-Based Thin Layer Membranes for Voltammetric Ion Activity Sensing," Analytical Chemistry, vol. 88, no. 11, pp. 5649-5654, 2016.
[31]
G. A. Crespo et al., "Characterization of Salophen Co(III) Acetate Ionophore for Nitrite Recognition," Electrochimica Acta, vol. 179, pp. 16-23, 2015.
[32]
M. G. Afshar, G. A. Crespo and E. Bakker, "Coulometric Calcium Pump for Thin Layer Sample Titrations," Analytical Chemistry, vol. 87, no. 19, pp. 10125-10130, 2015.
[34]
R. Athavale et al., "In Situ Ammonium Profiling Using Solid-Contact Ion-Selective Electrodes in Eutrophic Lakes," Analytical Chemistry, vol. 87, no. 24, pp. 11990-11997, 2015.
[35]
M. Cuartero, G. A. Crespo and E. Bakker, "Paper-Based Thin-Layer Coulometric Sensor for Halide Determination," Analytical Chemistry, vol. 87, no. 3, pp. 1981-1990, 2015.
[36]
N. Pankratova et al., "Potentiometric sensing array for monitoring aquatic systems," Environmental Science : Processes & Impacts, vol. 17, no. 5, pp. 906-914, 2015.
[37]
M. Cuartero, G. A. Crespo and E. Bakker, "Tandem Electrochemical Desalination-Potentiometric Nitrate Sensing for Seawater Analysis," Analytical Chemistry, vol. 87, no. 16, pp. 8084-8089, 2015.
[38]
M. G. Afshar et al., "Thin Layer Coulometry of Nitrite with Ion-Selective Membranes," Electroanalysis, vol. 27, no. 3, pp. 609-615, 2015.
[39]
G. A. Crespo, M. Cuartero and E. Bakker, "Thin Layer Ionophore-Based Membrane for Multianalyte Ion Activity Detection," Analytical Chemistry, vol. 87, no. 15, pp. 7729-7737, 2015.
[40]
M. Cuartero, G. A. Crespo and E. Bakker, "Thin Layer Samples Controlled by Dynamic Electrochemistry," Chimia (Basel), vol. 69, no. 4, pp. 203-206, 2015.
[41]
M. G. Afshar, G. A. Crespo and E. Bakker, "Thin-Layer Chemical Modulations by a Combined Selective Proton Pump and pH Probe for Direct Alkalinity Detection," Angewandte Chemie International Edition, vol. 54, no. 28, pp. 8110-8113, 2015.
[43]
T. Guinovart et al., "A reference electrode based on polyvinyl butyral (PVB) polymer for decentralized chemical measurements," Analytica Chimica Acta, vol. 821, pp. 72-80, 2014.
[44]
B. Neel et al., "Camping Burner-Based Flame Emission Spectrometer for Classroom Demonstrations," Journal of Chemical Education, vol. 91, no. 10, pp. 1655-1660, 2014.
[45]
Z. Jarolimova et al., "Chronopotentiometric Carbonate Detection with All-Solid-State lonophore-Based Electrodes," Analytical Chemistry, vol. 86, no. 13, pp. 6307-6314, 2014.
[46]
G. A. Crespo, M. G. Afshar and E. Bakker, "Chronopotentiometry of pure electrolytes with anion-exchange donnan exclusion membranes," Journal of Electroanalytical Chemistry, vol. 731, pp. 100-106, 2014.
[47]
M. G. Afshar, G. A. Crespo and E. Bakker, "Counter electrode based on an ion-exchanger Donnan exclusion membrane for bioelectroanalysis," Biosensors & bioelectronics, vol. 61, pp. 64-69, 2014.
[48]
M. G. Afshar et al., "Direct Alkalinity Detection with Ion-Selective Chronopotentiometry," Analytical Chemistry, vol. 86, no. 13, pp. 6461-6470, 2014.
[49]
E. Bakker et al., "Environmental Sensing of Aquatic Systems at the University of Geneva," Chimia (Basel), vol. 68, no. 11, pp. 772-777, 2014.
[50]
M. Cuartero et al., "Exhaustive Thin-Layer Cyclic Voltammetry for Absolute Multianalyte Halide Detection," Analytical Chemistry, vol. 86, no. 22, pp. 11387-11395, 2014.
Page responsible:Kenneth Carlsson
Belongs to: Department of Chemistry
Last changed: Aug 04, 2017