Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water

In order to address water quality control difficulties in remote locations, an electrochemical sensor is designed, manufactured and characterized to detect acetaminophen on aqueous solutions. CAD (Shapr3D) and PCB (Altium Designer) software tools were used in the design of the sensing electrodes. Th...

Full description

Autores:
Arias Castrillón, Juan Camilo
Tipo de recurso:
Trabajo de grado de pregrado
Fecha de publicación:
2022
Institución:
Universidad de los Andes
Repositorio:
Séneca: repositorio Uniandes
Idioma:
eng
OAI Identifier:
oai:repositorio.uniandes.edu.co:1992/64154
Acceso en línea:
http://hdl.handle.net/1992/64154
Palabra clave:
Electrochemical sensor
Microfluidic systems
Cyclic voltammetry
Acetaminophen
Ingeniería
Rights
openAccess
License
Attribution-NonCommercial-NoDerivatives 4.0 Internacional
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network_name_str Séneca: repositorio Uniandes
repository_id_str
dc.title.none.fl_str_mv Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
title Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
spellingShingle Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
Electrochemical sensor
Microfluidic systems
Cyclic voltammetry
Acetaminophen
Ingeniería
title_short Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
title_full Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
title_fullStr Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
title_full_unstemmed Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
title_sort Design and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in water
dc.creator.fl_str_mv Arias Castrillón, Juan Camilo
dc.contributor.advisor.none.fl_str_mv Rodríguez Toro, Víctor
Osma Cruz, Johann Faccelo
dc.contributor.author.none.fl_str_mv Arias Castrillón, Juan Camilo
dc.contributor.jury.none.fl_str_mv Sotelo Briceño, Diana Camila
dc.contributor.researchgroup.es_CO.fl_str_mv Biomicrosystems
dc.subject.keyword.none.fl_str_mv Electrochemical sensor
Microfluidic systems
Cyclic voltammetry
Acetaminophen
topic Electrochemical sensor
Microfluidic systems
Cyclic voltammetry
Acetaminophen
Ingeniería
dc.subject.themes.es_CO.fl_str_mv Ingeniería
description In order to address water quality control difficulties in remote locations, an electrochemical sensor is designed, manufactured and characterized to detect acetaminophen on aqueous solutions. CAD (Shapr3D) and PCB (Altium Designer) software tools were used in the design of the sensing electrodes. The characterization of the sensor was done by exposing the electrode to acetaminophen diluted in purified water and then measured the change in the output electrical signal through cyclic voltammetry.
publishDate 2022
dc.date.issued.none.fl_str_mv 2022-12-13
dc.date.accessioned.none.fl_str_mv 2023-01-25T16:55:43Z
dc.date.available.none.fl_str_mv 2023-01-25T16:55:43Z
dc.type.es_CO.fl_str_mv Trabajo de grado - Pregrado
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dc.language.iso.es_CO.fl_str_mv eng
language eng
dc.relation.references.es_CO.fl_str_mv B. Marine Environment Protection Commission, "Productos farmacéuticos en el medio acuático de la región del mar Báltico: informe, principales recomendaciones y datos; 2017," 2017. Accessed: Jun. 26, 2022. [Online]. Available: https://unesdoc.unesco.org/ark:/48223/pf0000260743_spa
W. J. L et al., "Pharmaceutical pollution of the world's rivers," Proceedings of the National Academy of Sciences, vol. 119, no. 8, p. e2113947119, Feb. 2022, doi: 10.1073/pnas.2113947119.
O. Gutiérrez Álvarez, W. F. Montaña Chaparro, and F. R. Nates Solano, "Análisis de las Prescripciones de Tecnologías en Salud no financiadas con recursos de la UPC realizadas a través del Módulo General de la herramienta tecnológica MIPRES durante 2020," Bogotá D.C, Feb. 2021. Accessed: Jul. 04, 2022. [Online]. Available: https://www.minsalud.gov.co/sites/rid/Lists/BibliotecaDigital/RIDE/VP/RBC/informe-mipres-2020.pdf
L. L. Mazaleuskaya, K. Sangkuhl, C. F. Thorn, G. A. Fitzgerald, R. B. Altman, and T. E. Klein, "PharmGKB summary: Pathways of acetaminophen metabolism at the therapeutic versus toxic doses," Pharmacogenet Genomics, vol. 25, no. 8, pp. 416-426, Jul. 2015, doi: 10.1097/FPC.0000000000000150.
E. Choi, D. Alsop, and J. Y. Wilson, "The effects of chronic acetaminophen exposure on the kidney, gill and liver in rainbow trout (Oncorhynchus mykiss)," Aquatic Toxicology, vol. 198, pp. 20-29, May 2018, doi: 10.1016/J.AQUATOX.2018.02.007.
W. E. Org et al., "ELECTROCHEMICAL SCIENCE Pharmaceutical Electrochemistry: the Electrochemical Oxidation of Paracetamol and Its Voltammetric Sensing in Biological Samples Based on Screen Printed Graphene Electrodes," 2015. [Online]. Available: www.electrochemsci.org
A. Chatterjee, "Different electrodes for paracetamol estimation using cyclic voltammetry technique: A review," Research Journal of Pharmacology and Pharmacodynamics, vol. 9, no. 2, pp. 88-92, 2017, doi: 10.5958/2321-5836.2017.00015.5.
D. Nematollahi, H. Shayani-Jam, M. Alimoradi, and S. Niroomand, "Electrochemical oxidation of acetaminophen in aqueous solutions: Kinetic evaluation of hydrolysis, hydroxylation and dimerization processes," Electrochim Acta, vol. 54, no. 28, pp. 7407-7415, Dec. 2009, doi: 10.1016/j.electacta.2009.07.077.
D. Ji et al., "Smartphone-based cyclic voltammetry system with graphene modified screen printed electrodes for glucose detection," Biosens Bioelectron, vol. 98, pp. 449-456, Dec. 2017, doi: 10.1016/j.bios.2017.07.027.
J. Massah and K. Asefpour Vakilian, "An intelligent portable biosensor for fast and accurate nitrate determination using cyclic voltammetry," Biosyst Eng, vol. 177, pp. 49-58, Jan. 2019, doi: 10.1016/j.biosystemseng.2018.09.007.
C. C. Segura Gómez, "A low-cost multi-technique portable electrochemical device for remote Biosensors," Universidad de los Andes, 2022. Accessed: Dec. 03, 2022. [Online]. Available: https://repositorio.uniandes.edu.co/handle/1992/59425
E. F. Peña Porras, "Diseño y construcción de un dispositivo funcional para el pegado de sistemas microfluídicos," Universidad de los Andes, 2020.
A. J. Cardona Rojas, "Diseño Estándar de Sensor Electroquímico de Manera Conjunta para el Acople entre micro-reactores y Potenciostatos en Sistemas Micro- Fluídicos," Universidad de los Andes, 2022. [Online]. Available: http://hdl.handle.net/1992/55200
S. Chen et al., "Microfluidic Device Directly Fabricated on Screen-Printed Electrodes for Ultrasensitive Electrochemical Sensing of PSA," Nanoscale Res Lett, vol. 14, no. 1, pp. 1-7, Feb. 2019, doi: 10.1186/S11671-019-2857-6/FIGURES/5.
T. Thaweeskulchai and A. Schulte, "Sustainable and Efficient: A Reusable DIY Three-Electrode Base Plate for Microfluidic Electroanalysis and Biosensing," Anal Chem, vol. 93, no. 21, pp. 7557-7561, Jun. 2021, doi: 10.1021/ACS.ANALCHEM.1C00996/SUPPL_FILE/AC1C00996_SI_001.PDF.
A. Mohammadzadeh, A. E. F. Robichaud, and P. R. Selvaganapathy, "Rapid and Inexpensive Method for Fabrication and Integration of Electrodes in Microfluidic Devices," Journal of Microelectromechanical Systems, vol. 28, no. 4, pp. 597-605, Aug. 2019, doi: 10.1109/JMEMS.2019.2914110.
A. L. Campaña et al., "Enzyme-Based Electrochemical Biosensors for Microfluidic Platforms to Detect Pharmaceutical Residues in Wastewater," 2019, doi: 10.3390/bios9010041.
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spelling Attribution-NonCommercial-NoDerivatives 4.0 Internacionalhttp://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Rodríguez Toro, Víctor5f0a70c1-cc0d-444d-8d56-6c8052e458e3600Osma Cruz, Johann Faccelovirtual::7915-1Arias Castrillón, Juan Camilo6aa32c74-0f13-477b-a5d3-dca30d99816d600Sotelo Briceño, Diana CamilaBiomicrosystems2023-01-25T16:55:43Z2023-01-25T16:55:43Z2022-12-13http://hdl.handle.net/1992/64154instname:Universidad de los Andesreponame:Repositorio Institucional Sénecarepourl:https://repositorio.uniandes.edu.co/In order to address water quality control difficulties in remote locations, an electrochemical sensor is designed, manufactured and characterized to detect acetaminophen on aqueous solutions. CAD (Shapr3D) and PCB (Altium Designer) software tools were used in the design of the sensing electrodes. The characterization of the sensor was done by exposing the electrode to acetaminophen diluted in purified water and then measured the change in the output electrical signal through cyclic voltammetry.Ingeniero ElectrónicoPregradoSensores electroquímicos para microfluídica15 páginasapplication/pdfengUniversidad de los AndesIngeniería ElectrónicaFacultad de IngenieríaDepartamento de Ingeniería Eléctrica y ElectrónicaDesign and implementation of an electrochemical sensor, based on a microfluidic system, to determine acetaminophen concentrations in waterTrabajo de grado - Pregradoinfo:eu-repo/semantics/bachelorThesisinfo:eu-repo/semantics/acceptedVersionhttp://purl.org/coar/resource_type/c_7a1fTexthttp://purl.org/redcol/resource_type/TPElectrochemical sensorMicrofluidic systemsCyclic voltammetryAcetaminophenIngenieríaB. Marine Environment Protection Commission, "Productos farmacéuticos en el medio acuático de la región del mar Báltico: informe, principales recomendaciones y datos; 2017," 2017. Accessed: Jun. 26, 2022. [Online]. Available: https://unesdoc.unesco.org/ark:/48223/pf0000260743_spaW. J. L et al., "Pharmaceutical pollution of the world's rivers," Proceedings of the National Academy of Sciences, vol. 119, no. 8, p. e2113947119, Feb. 2022, doi: 10.1073/pnas.2113947119.O. Gutiérrez Álvarez, W. F. Montaña Chaparro, and F. R. Nates Solano, "Análisis de las Prescripciones de Tecnologías en Salud no financiadas con recursos de la UPC realizadas a través del Módulo General de la herramienta tecnológica MIPRES durante 2020," Bogotá D.C, Feb. 2021. Accessed: Jul. 04, 2022. [Online]. Available: https://www.minsalud.gov.co/sites/rid/Lists/BibliotecaDigital/RIDE/VP/RBC/informe-mipres-2020.pdfL. L. Mazaleuskaya, K. Sangkuhl, C. F. Thorn, G. A. Fitzgerald, R. B. Altman, and T. E. Klein, "PharmGKB summary: Pathways of acetaminophen metabolism at the therapeutic versus toxic doses," Pharmacogenet Genomics, vol. 25, no. 8, pp. 416-426, Jul. 2015, doi: 10.1097/FPC.0000000000000150.E. Choi, D. Alsop, and J. Y. Wilson, "The effects of chronic acetaminophen exposure on the kidney, gill and liver in rainbow trout (Oncorhynchus mykiss)," Aquatic Toxicology, vol. 198, pp. 20-29, May 2018, doi: 10.1016/J.AQUATOX.2018.02.007.W. E. Org et al., "ELECTROCHEMICAL SCIENCE Pharmaceutical Electrochemistry: the Electrochemical Oxidation of Paracetamol and Its Voltammetric Sensing in Biological Samples Based on Screen Printed Graphene Electrodes," 2015. [Online]. Available: www.electrochemsci.orgA. Chatterjee, "Different electrodes for paracetamol estimation using cyclic voltammetry technique: A review," Research Journal of Pharmacology and Pharmacodynamics, vol. 9, no. 2, pp. 88-92, 2017, doi: 10.5958/2321-5836.2017.00015.5.D. Nematollahi, H. Shayani-Jam, M. Alimoradi, and S. Niroomand, "Electrochemical oxidation of acetaminophen in aqueous solutions: Kinetic evaluation of hydrolysis, hydroxylation and dimerization processes," Electrochim Acta, vol. 54, no. 28, pp. 7407-7415, Dec. 2009, doi: 10.1016/j.electacta.2009.07.077.D. Ji et al., "Smartphone-based cyclic voltammetry system with graphene modified screen printed electrodes for glucose detection," Biosens Bioelectron, vol. 98, pp. 449-456, Dec. 2017, doi: 10.1016/j.bios.2017.07.027.J. Massah and K. Asefpour Vakilian, "An intelligent portable biosensor for fast and accurate nitrate determination using cyclic voltammetry," Biosyst Eng, vol. 177, pp. 49-58, Jan. 2019, doi: 10.1016/j.biosystemseng.2018.09.007.C. C. Segura Gómez, "A low-cost multi-technique portable electrochemical device for remote Biosensors," Universidad de los Andes, 2022. Accessed: Dec. 03, 2022. [Online]. Available: https://repositorio.uniandes.edu.co/handle/1992/59425E. F. Peña Porras, "Diseño y construcción de un dispositivo funcional para el pegado de sistemas microfluídicos," Universidad de los Andes, 2020.A. J. Cardona Rojas, "Diseño Estándar de Sensor Electroquímico de Manera Conjunta para el Acople entre micro-reactores y Potenciostatos en Sistemas Micro- Fluídicos," Universidad de los Andes, 2022. [Online]. Available: http://hdl.handle.net/1992/55200S. Chen et al., "Microfluidic Device Directly Fabricated on Screen-Printed Electrodes for Ultrasensitive Electrochemical Sensing of PSA," Nanoscale Res Lett, vol. 14, no. 1, pp. 1-7, Feb. 2019, doi: 10.1186/S11671-019-2857-6/FIGURES/5.T. Thaweeskulchai and A. Schulte, "Sustainable and Efficient: A Reusable DIY Three-Electrode Base Plate for Microfluidic Electroanalysis and Biosensing," Anal Chem, vol. 93, no. 21, pp. 7557-7561, Jun. 2021, doi: 10.1021/ACS.ANALCHEM.1C00996/SUPPL_FILE/AC1C00996_SI_001.PDF.A. Mohammadzadeh, A. E. F. Robichaud, and P. R. Selvaganapathy, "Rapid and Inexpensive Method for Fabrication and Integration of Electrodes in Microfluidic Devices," Journal of Microelectromechanical Systems, vol. 28, no. 4, pp. 597-605, Aug. 2019, doi: 10.1109/JMEMS.2019.2914110.A. L. 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