Who?

Hi! I'm David J. Cocovi-Solberg. I'm researcher in the Universität für Bodenkultur, Vienna. My field of expertise is the automation of the chemistry lab. Ongoing topics include the automation of bioaccessibility tests for environmental solid samples and the automation, optimization and portabilization of environmental and clinical assays. Briefly, I design and fabricate small machines that automate the whole analytical procedure, including the sampling, conditioning, separation, detection, data treatment and reporting. To this end, I use my knowledge in chemistry, fluidics, mechanics, electronics, software programming and statistics.

If you have any question or are you interested in our research, please contact us. For a glimpse of the work done the last years check down here. You can also find me on ResearchGate and LinkedIn.

Formation

  • B. Sc Chemistry (2010, Universitat de les Illes Balears. Pathway: The Chemistry of Biomedicine and Health).

  • M. Sc. Chemical Science and Technology (2011, UIB. Specialist in Laboratory automation and environment: Design of a versatile flow-through paired emitter-detector diode-based optrode).

  • Ph. D. Chemical Science and Technology (2017. UIB. Real-time monitoring of bioaccessibility tests for solid samples using automatic flow methods).

  • Postdoc. University of Natural Resources and Life Sciences in Vienna (BOKU). (2019. Renewable turbulent flow chromatography for exposomics).

Publications

  1. Marta Pokrzywnicka, David J. Cocovi-Solberg, Manuel Miró, Victor Cerdà, Robert Koncki, Łukasz Tymecki, - Miniaturized optical chemosensor for flow-based assays, Anal. Bioanal. Chem 2011, 399(3):1381-1387.

  2. David J. Cocovi-Solberg, Manuel Miró, Victor Cerdà, Marta Pokrzywnicka, Łukasz Tymecki, Robert Koncki - Towards the development of a miniaturized fiberless optofluidic biosensor for glucose’ Talanta, 2012, 96:113–120.

  3. David J. Cocovi-Solberg, Maria Rosende, Manuel Miró - Automatic Kinetic Bioaccessibility Assay of Lead in Soil Environments using flow-through microdialysis as a front end to electrothermal atomic absorption spectrometry - Environ. Sci. Technol. 2014, 48(11):6282-6290.

  4. Marta Friedoruk; David J. Cocovi-Solberg; Lukas Tymecki; Robert Koncki; Manuel Miró - Hybrid flow system integrating a miniaturized optoelectronic detector for on-line dynamic fractionation and fluorometric determination of bioaccessible orthophosphate in soils. – Talanta, 2015, 133:59-65.

  5. David J. Cocovi-Solberg, Manuel Miró - CocoSoft: educational software for automation in the analytical chemistry laboratory – Anal. Bioanal. Chem 2015, 407:6227-6233.

  6. Alexandra Sixto, Marta Fiedoruk-Pogrebniak, María Rosende, David Cocovi-Solberg, Moisés Knochen, Manuel Miró - Mesofluidic platform integrating restricted access-like sorptive microextraction as a front-end to ICP-AES for determination of trace level concentrations of lead and cadmium as contaminants in honey - J. Anal. At. Spectrom, 2016, 31:473-481.

  7. Daniel Kremr, David Cocovi-Solberg, Petra Bajerová, Karel Ventura, Manuel Miró - On-line monitoring of in-vitro oral bioaccessibility tests as a front-end to liquid chromatography for determination of chlorogenic acid isomers in dietary supplements - Talanta, 2016, 166:391-398.

  8. Ana C.F. Vida, David J. Cocovi-Solberg, Elias A. G. Zagatto, Manuel Miró - Rapid estimation of readily leachable triazine residues in soils using automatic kinetic bioaccessibility assays followed by on-line sorptive clean-up as a front-end to liquid chromatography - Talanta, 2016, 156-157:71-78.

  9. Burkhard Horstkotte, Kateřina Fikarová, David J. Cocovi-Solberg, Hana Sklenářová, Petr Solich, Manuel Miró - Online Coupling of fully automatic in-syringe dispersive liquid-liquid microextraction with oxidative back-extraction to inductively coupled plasma spectrometry for sample clean-up in elemental analysis: a proof of concept - Talanta, 2017, 173:79-87.

  10. David J Cocovi-Solberg, Francisco A Esteve-Turrillas, Sergio Armenta, Miguel de la Guardia, Manuel Miró - Towards an Automatic lab-on-valve-ion mobility spectrometric system for detection of cocaine abuse - J. Chromatogr. A. 2017, 1512:43-50.

  11. Han Wang, David J. Cocovi-Solberg, Bin Hu, Manuel Miró - 3D-Printed Microflow Injection Analysis Platform for Online Magnetic Nanoparticle Sorptive Extraction of Antimicrobials in Biological Specimens as a Front End to Liquid Chromatographic Assays - Anal. Chem. 2017, 89 (22):12541-12549.

  12. Chanatda Worawit, David J. Cocovi-Solberg, Pakorn Varanusupakul, Manuel Miró - In-line carbon nanofiber reinforced hollow fiber-mediated liquid phase microextraction using a 3D printed extraction platform as a front end to liquid chromatography for automatic sample preparation and analysis: A proof of concept study - Talanta, 185, 611-619

  13. David J. Cocovi-Solberg, Paul J. Worsfold, Manuel Miró - Opportunities for 3D printed millifluidic platforms incorporating on-line sample handling and separation - Trends Anal. Chem 2018, 108, 13-22

  14. Manuel Miró, David J. Cocovi-Solberg, María Rosende - Automatización de técnicas de microextracción en fase sólida renovable usando sistemas avanzados de análisis en flujo - Actualidad analitica, 2018, 63, 38-41

  15. David J. Cocovi Solberg, María Rosende, Miguel Oliver, Manuel Miró - Impresion 3D: Ejemplos de aplicaciones docentes en química - Actualidad Analitica, 2019, 65, 8-11

  16. David J. Cocovi-Solberg, María Rosende, Michal Michalec, Manuel Miró - 3D Printing: The Second Dawn of Lab-On-Valve Fluidic Platforms for Automatic (Bio)Chemical Assays - Anal. Chem., 2019, 91, 1440-1149

  17. Katerina Fikarová, David J. Cocovi-Solberg, Maria Rosende, Burkhard Horstkotte, Hana Sklenářová, Manuel Miró - A Flow-based platform hyphenated to on-line liquid chromatography for automatic leaching tests of chemical additives from microplastics into seawater - J. Chromatogr. A, 2019, 1602, 160-167

  18. Enrique Javier Carrasco-Correa, Pavel Kuban, David J. Cocovi-Solberg, Manuel Miró - Fully automated electric field-driven liquid phase microextraction system with renewable organic membrane as a front end to high performance liquid chromatography - Anal. Chem., 2019, 91, 10808-10815

  19. Natcha Kaewwonglom, Miquel Oliver, David J. Cocovi-Solberg, Katharina Zirngibl, Dietmar Knopp, Jaroon Jakmunee, Manuel Miró - A reliable sensing platform for plasmonic ELISA based on automatic flow-based methodology - Anal. Chem. 2019, 91, 20, 13260-13267

  20. David Cocovi-Solberg, Astrid Kellner, Stine Schmidt, Andreas Loibner, Manuel Miró, Philipp Mayer - Enhanced Bioaccessibility Extraction (MEBE) of hydrophobic soil pollutants - Using a semipermeable membrane for separating desorption medium and acceptor solvent - Env. Pol. 2019, 257, 113470

  21. Miquel Oliver, Marc Roca-Jiménez, Manuel Miró, David J. Cocovi-Solberg - In quest of effect directed analysis in the smart laboratory: Automated system for flow-through evaluation of membranotropic effects of emerging contaminants - Talanta, 2020, 120600

  22. Manuel Miró, Enrique J. Carrasco-Correa, David J. Cocovi-Solberg - 3D printing in separation science: Hype or reality - Brazilian Journal of Analytical Chemistry, 2020, 7, 9-11

  23. Enrique J. Carrasco-Correa, David J. Cocovi-Solberg, Jose Manuel Herrero-Martínez, Ernesto F. Simó-Alfonso, Manuel Miró - 3D printed fluidic platform with in-situ covalently immobilized polymer monolithic column for automatic solid-phase extraction - Analytica Chimica Acta, 2020, 1111, 40-48


Conference presentations

  1. David J. Cocovi-Solberg, Manuel Miró, Victor Cerdà, Marta Pokrzywnicka, Łukasz Tymecki, Robert Koncki - Towards the development of a miniaturized fiberless optofluidic biosensor for glucose -17th International Conference on Flow Injection Analysis, 2011, Cracow.

  2. David J. Cocovi-Solberg, Marta Pokrzywnicka, Manuel Miró, Victor Cerdà, Łukasz Tymecki, Robert Koncki - Design of a versatile flow-through paired emitter-detector diode-based optrode - 16th European Conference on Analytical Chemistry, 2011, Belgrade.

  3. David J. Cocovi-Solberg, Maria Rosende, Manuel Miró - Critical comparison between microdialysis and microfiltration as sampling techniques coupled at-line to ETAAS for evaluation of kinetic extraction profiles of lead in soils. - 12th International Conference on Flow Analysis, 2012, Thessalonikki.

  4. David J. Cocovi-Solberg, Maria Rosende, Manuel Miró - At-line Hyphenation of microdialysis sampling with ETAAS for mechanisation of bioaccesibility tests and evaluation of kinetic profiles of lead in terrestrial environments. - 18th International Conference on Flow Injection Analysis, 2012, Porto.

  5. Marta Fiedoruk, David J. Cocovi-Solberg, Łukasz Tymecki, Robert Koncki, Manuel Miró - Hybrid flow system integrating a miniaturized optoelectronic detector for on-line dynamic fractionation and fluorometric determination of bioaccessible inorganic phosphorus in soils.- 18th International Conference on Flow Injection Analysis, 2012, Porto.

  6. David J. Cocovi-Solberg, Manuel Miró - Título: In-line coupling of dynamic bioaccesibility tests to microsolid-phase extraction as a front end to liquid chromatography for monitoring of leaching kinetics of organic pollutants in environmental solid samples. - 30th international Symposium on Chromatography, 2014, Salzburg.

  7. David J. Cocovi-Solberg, Javier Llorente Downes, Manuel Miró - Evaluation of bioaccesibility tests for asessment of leaching kinetics of organic contaminants in sediments - 14as Jornadas de Analisis Instrumental, 2014 Barcelona.

  8. David J. Cocovi-Solberg, Manuel Miró - CocoSoft: Versatile software for automation of flow-based methodology - 19 th International Conference on Flow Injection Analysis, 2014 Fukuoka.

  9. David J. Cocovi-Solberg, Manuel Miró, Andreas Loiber, Philipp Mayer - Bioaccesibility Extraction of hydrophobic pollutants: benefits of separating leaching agent and acceptor medium. - SETAC Eurpoe 25th annual meeting, 2015 Barcelona.

  10. Cocovi-Solberg, D.J.; Miró, M. - Coupling of dynamic accessibility tests to liquid-chromatography using bead-injection mesofluidic analysis for monitoring leaching kinetics of xenobiotics in environmental solids - Flow Analysis XIII, 2015, Prague.

  11. David J. Cocovi-Solberg - Faster and more intuitive method development in SIA through programmatically convoluted command set - 20th International Conference on Flow Injection Analysis and Related Techniques, 2016, Palma de Mallorca.

  12. David J. Cocovi-Solberg, Manuel Miró, Luis Laglera - Example of automatic data treatmetn in CocoSoft - 20th International Conference on Flow Injection Analysis and Related Techniques, 2016, Palma de Mallorca.

  13. David J. Cocovi-Solberg, Ana C. F. Vida, Elias A. G. Zagatto, Manuel Miró - On-line Monitoring of readily leachable triazine residues in soils using automatic kinetic bioaccessibility assays as a front end to liquid chromatography - 20th International Conference on Flow Injection Analysis and Related Techniques, 2016, Palma de Mallorca.

  14. David J. Cocovi-Solberg, Manuel Miró, Andreas Loibner, Philipp Mayer - solating leaching agent and liquid aceptor in bioaccessibility extractions for hydrophobic pollutants - 19th International Symposium on Advances in Extraction Technologies, 2017, Santiago de Compostela.

  15. Miquel Oliver, David J. Cocovi-Solberg, Manuel Miró - Unsupervised system for determination of membranotropic effects of emerging contaminants - 19th International Symposium on Advances in Extraction Technologies, 2017, Santiago de Compostela.

  16. David J. Cocovi-Solberg, Manuel Miró - Real-time monitoring of bioaccessibility assays of trace hydrophobic organic pollutants using automatic renewable solid phase extraction as a front end to liquid chromatographic separations - 19th International Symposium on Advances in Extraction Technologies, 2017, Santiago de Compostela.

  17. Manuel Miró, David J. Cocovi-Solberg, Maria Rosende - Automatic sample preparation in bioaccessibility/bioavailability in exposome studies of environmental solids - 19th International Symposium on Advances in Extraction Technologies, 2017, Santiago de Compostela.

  18. Sergio Armenta, David J. Cocovi-Solberg, Francesc A. Esteve-Turrillas, Miguel de la Guardia, Manuel Miró - Lab-on-valve-ion mobility spectrometry sensor system for cocaine abuse - 19th International Symposium on Advances in Extraction Technologies, 2017, Santiago de Compostela.

  19. Rosende M, Cocovi-Solberg D.J, Oliver M, Miró M. - Bead injection using advanced sorbent materials for automatic sample preparation in mesofluidic platforms 40th International Conference on Environmental & Food Monitoring, 2018, Santiago de Compostela.

  20. Miquel Oliver, Marc Roca Jiménez, David J. Cocovi-Solberg, Manuel Miró - Assessment of the distribution of emerging contaminants across the cellular membrane using a very simple unmaned fluidic system - Flow Analysis & Capillary Electrophoresis, 2018, Hrádec Kralové.

  21. Maria Rosende, David J. Cocovi Solberg, Manuel Miró - Novel automatic in-vitro methods for on-line assessment of the gastrointestinal bioaccessibility of micronutrients from food comodities - Flow Analysis and Capillary Electrophoresis,2018, Hrádec Kralové.

  22. Chanatda Worawit, David J. Cocovi Solberg, Pakorn Varanusupakul, Manuel Miró - In-line carbon nanofiber reinforced hollow fiber-mediated liquid phase microextraction using a 3D printed extraction platform as a front end to liquid chromatography for automatic sample preparation and analysis: A proof of concept - Flow Analysis & Capilar Electrophoresis, 2018, Hrádec Kralové.

  23. David j. Cocovi Solberg, Maria Rosende, Miguel Oliver, Manuel Miró - Impresión 3D: Ejemplos de aplicaciones docentes en química - IV Jornada sobre estrategias para la innovación de la actividad docente en química analítica, 2018, Alcalá de Henares.

  24. Katerina Fikarova, David J. Cocovi-Solberg, María Rosende, Burkhard Horstkotte, Hana Sklenářova, Manuel Miró - Unsupervised in-vitro monitoring of the leaching kinetics of emerging contaminants from microplastics in the marine environment by online coupling of mini-column extraction to HPLC - XVIII Reunión de la sociedad española de cromatografia y técnicas afines, 2018, Granada.

  25. David J. Cocovi-Solberg, Manuel Miró - Flow approaches: Automation of sampling and sample preparation as a front end to HPLC - XVIII Reunión de la sociedad española de cromatografia y tecnicas afines, 2018, Granada.

  26. Manuel Miró, David J. Cocovi-Solberg, Maria Rosende - Potential of ion analysis in exposomics using flow analysis - 1st International conference on ion analysis, 2018, Berlin.

  27. David J. Cocovi-Solberg, Maria Rosende, Manuel Miró - Automatic kinetic monitoring of bioaccessible trace metals from soil using Lab-On-Valve-AnodicStripping-Voltammetry - 1st iInternational conference on ion analysis, 2018, Berlin.

  28. David J. Cocovi-Solberg, Javier Llorente Downes, Camila Sukekava, Mar Gil Monterde, Manuel Miró, Luis Laglera Baquer - In-vitro automatic kinetic study on Fe (II) stabilization by biological molecules occurring in the epipelagic environment - 1st International conference on ion analysis, 2018, Berlin.

  29. David J. Cocovi-Solberg, Chanatda Worawit, Pakorn Varanusupakul, Manuel Miró - Automation and miniaturization of clinical sample pretreatment through nanotubereinforced wetted-hollow-fiber-based manipulation of ionic equilibria - 1st international conference on ion analysis, 2018, Berlin.

  30. María Rosende, Miquel Oliver, David J. Cocovi-Solberg and Manuel Miró 1st International conference on ion analysis - Automatic in-vitro gastrointestinal bioaccessibility assessment of metal ions (micronutrients) from edible seeds - 1st international conference on ion analysis, 2018, Berlin.

  31. Manuel Miró, David J. Cocovi-Solberg, Paul J. Worsfold - Automated flow-based sample preparation exploiting 3D printed fluidic platforms - Sample Treatment 2018, 2018, Caparica.

  32. Katerina Fikarová, David J. Cocovi-Solberg, Maria Rosende, Burkhard Horstkotte, Hana Sklenářová, Manuel Miró - Automatic investigation of the bioaccessibility of phtalates and Bisphenol A from microplastics in sea water under flow-through dynamic extraction conditions using an on-line switching valve HPLC System - Flow Analysis, 2018, Bangkok

  33. Enrique J. Carrasco-Correa; David J. Cocovi-Solberg; José M. Herrero-Martínez; Ernesto F. Simó-Alfonso; Manuel Miró - 3D printed fluidic platforms with covalently in-situ polimerized organic monoliths for automated micro-solid phase extraction - XXII reunión de la Sociedad Española de Química Analítica , 2019, Valladolid

  34. Manuel Miró; David J. Cocovi-Solberg Impresión 3D en el laboratorio analítico ¿Revolución o utopia? - XXII reunión de la Sociedad Española de Química Analítica, 2019, Valladolid

  35. David J. Cocovi-Solberg - Lab-In-Tube: Exposomics revive Bead Injection - STARSS conference on Separation Science, 2019, Hradec Kralové

  36. David J. Cocovi-Solberg, Stephan Hann, Manuel Miró - System for Online Renewable SPE-Based Fractionation - Winter Conference on Plasma Spectrochemistry, 2020, Tucson

  37. David J. Cocovi-Solberg, Stephan Hann - Lab-In-Tube: Automatic flow-based SPE integrated in omic workflows - 36th International symposium on microscale separations and bionalysis, 2020, Virtual