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Pablo E. Guevara-Pantoja
Pablo E. Guevara-Pantoja
Microfluidics Cluster UPV/EHU
Verified email at ehu.eus
Title
Cited by
Cited by
Year
A high-throughput multiplexed microfluidic device for COVID-19 serology assays
R Rodriguez-Moncayo, DF Cedillo-Alcantar, PE Guevara-Pantoja, ...
Lab on a Chip 21 (1), 93-104, 2021
572021
Pressure-actuated monolithic acrylic microfluidic valves and pumps
PE Guevara-Pantoja, RJ Jiménez-Valdés, JL García-Cordero, ...
Lab on a Chip 18 (4), 662-669, 2018
302018
Microfluidic systems for the analysis of blood‐derived molecular biomarkers
OG Chavez‐Pineda, R Rodriguez‐Moncayo, DF Cedillo‐Alcantar, ...
Electrophoresis 43 (16-17), 1667-1700, 2022
172022
Microfluidic flow spectrometer
P Vázquez-Vergara, AMT Rojas, PE Guevara-Pantoja, EC Poiré, ...
Journal of Micromechanics and Microengineering 27 (7), 077001, 2017
112017
An affordable 3D-printed positioner fixture improves the resolution of conventional milling for easy prototyping of acrylic microfluidic devices
PE Guevara-Pantoja, OG Chavez-Pineda, AM Solis-Serrano, ...
Lab on a Chip 20 (17), 3179-3186, 2020
82020
Micro–nanoparticles magnetic trap: Toward high sensitivity and rapid microfluidic continuous flow enzyme immunoassay
PE Guevara-Pantoja, M Sánchez-Domínguez, GA Caballero-Robledo
Biomicrofluidics 14 (1), 2020
82020
Tuning finely the packing density of heavy microparticles in a microfluidic channel
PE Guevara-Pantoja, GA Caballero-Robledo
RSC advances 5 (31), 24635-24639, 2015
42015
Hybrid Opto‐Thermocycler for RT‐qPCR Detects SARS‐CoV‐2
PE Guevara‐Pantoja, R Rodriguez‐Moncayo, OG Chavez‐Pineda, ...
Advanced Materials Technologies 8 (3), 2200902, 2023
22023
Millifluidic valves and pumps made of tape and plastic
JU Amador-Hernandez, PE Guevara-Pantoja, DF Cedillo-Alcantar, ...
Lab on a Chip 23 (20), 4579-4591, 2023
12023
Capture efficiency of magnetic nanoparticles through the compaction effect of a microparticles column
KB Reynoso-Hernández, PE Guevara-Pantoja, GA Caballero-Robledo
Physical Review E 104 (2), 024603, 2021
12021
Capture of magnetic nanoparticles does not depend on the compaction of microparticles in a chip
G Caballero-Robledo, K Reynoso-Hernández, P Guevara-Pantoja, ...
Bulletin of the American Physical Society 67, 2022
2022
Computer Numerical Control Micromilling of a Microfluidic Acrylic Device with a Staggered Restriction for Magnetic Nanoparticle-Based Immunoassays
JA Hernández-Ortiz, PE Guevara-Pantoja, M Andrade-Medina, ...
JoVE (Journal of Visualized Experiments), e63899, 2022
2022
HYBRID OPTO-THERMOCYCLER FOR RT-qPCR USING A BUBBLE-FREE MICROFLUIDIC DEVICE DETECTS SARS-CoV-2
PE Guevara-Pantoja, R Rodriguez-Moncayo, OG Chavez-Pineda, ...
25th International Conference on Miniaturized Systems for Chemistry and Life …, 2021
2021
Diseño, caracterización y optimizacion de una trampa magnética microfluídica para aplicaciones en inmunoensayos
PE Guevara Pantoja
Tesis (DC)--Centro de Investigación y de Estudios Avanzados del IPN Unidad …, 2018
2018
Control of microparticles packing density in a microfluidic channel for bead based immunoassays applications
G Caballero-Robledo, P Guevara-Pantoja
APS Division of Fluid Dynamics Meeting Abstracts, M10. 001, 2014
2014
Supplementary material for the article
PE Guevara-Pantoja, GA Caballero-Robledo
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