Your search keyword '"Dector, Andrés"' showing total 4 results

1. A Facile Glycerol-Assisted Synthesis of Low-Cu 2+ -Doped CoFe 2 O 4 for Electrochemical Sensing of Acetaminophen.

Author

Alfonso-González, José Guillermo, Granja-Banguera, Claudia Patricia, Morales-Morales, Jimmy Alexander, and Dector, Andrés

Subjects

ACETAMINOPHEN, CHARGE exchange, IMPEDANCE spectroscopy, DETECTION limit, GLYCERIN, STANDARD deviations

Abstract

This work devised a simple glycerol-assisted synthesis of a low-Cu2+-doped CoFe2O4 and the electrochemical detection of acetaminophen (AC). During the synthesis, several polyalcohols were tested, indicating the efficiency of glycerin as a cosolvent, aiding in the creation of electrode-modifier nanomaterials. A duration of standing time (eight hours) before calcination produces a decrease in the secondary phase of hematite. The synthesized material was used as an electrode material in the detection of AC. In acidic conditions (pH 2.5), the limit of detection (LOD) was 99.4 nM, while the limit of quantification (LOQ) was found to be (331 nM). The relative standard deviation (RSD), 3.31%, was computed. The enhanced electrocatalytic activity of a low-Cu2+-doped CoFe2O4-modified electrode Cu0.13Co0.87Fe2O4/GCE corresponds extremely well with its resistance Rct, which was determined using the electrochemical impedance spectroscopy (EIS) technique and defined its electron transfer capacity. The possibility of a low-Cu2+-doped CoFe2O4 for the electrochemical sensing of AC in human urine samples was studied. The recovery rates ranging from 96.5 to 101.0% were obtained. These findings suggested that the Cu0.13Co0.87Fe2O4/GCE sensor has outstanding practicability and could be utilized to detect AC content in real complex biological samples. [ABSTRACT FROM AUTHOR]

Published

2023

2. Digital Pregnancy Test Powered by an Air-Breathing Paper-Based Microfluidic Fuel Cell Stack Using Human Urine as Fuel.

Author

Vera-Estrada, Irma Lucia, Olivares-Ramírez, Juan Manuel, Rodríguez-Reséndiz, Juvenal, Dector, Andrés, Mendiola-Santibañez, Jorge Domingo, Amaya-Cruz, Diana María, Sosa-Domínguez, Adrían, Ortega-Díaz, David, Dector, Diana, Ovando-Medina, Victor Manuel, and Antonio-Carmona, Iveth Dalila

Subjects

PREGNANCY tests, POWER resources, URINE, POWER density, FUEL cells, MICROBIAL fuel cells, TITANIUM dioxide, ELECTRODIALYSIS

Abstract

The direct integration of paper-based microfluidic fuel cells (μFC's) toward creating autonomous lateral flow assays has attracted attention. Here, we show that an air-breathing paper-based μFC could be used as a power supply in pregnancy tests by oxidizing the human urine used for the diagnosis. We present an air-breathing paper-based μFC connected to a pregnancy test, and for the first time, as far as we know, it is powered by human urine without needing any external electrolyte. It uses TiO 2 -Ni as anode and Pt/C as cathode; the performance shows a maximum value of voltage and current and power densities of ∼0.96 V, 1.00 mA cm − 2 , and 0.23 mW cm − 2 , respectively. Furthermore, we present a simple design of a paper-based μFC's stack powered with urine that shows a maximum voltage and maximum current and power densities of ∼1.89 V, 2.77 mA cm − 2 and 1.38 mW cm − 2 , respectively, which powers the display of a pregnancy test allowing to see the analysis results. [ABSTRACT FROM AUTHOR]

Published

2022

3. A Paper-Based Microfluidic Fuel Cell Using Soft Drinks as a Renewable Energy Source.

Author

Hernández Rivera, Jaime, Ortega Díaz, David, Amaya Cruz, Diana María, Rodríguez-Reséndiz, Juvenal, Olivares Ramírez, Juan Manuel, Dector, Andrés, Dector, Diana, Galindo, Rosario, and Esparza Ponce, Hilda Esperanza

Subjects

RENEWABLE energy sources, SOFT drinks, FUEL cells, ENERGY drinks, MICROBIAL fuel cells, POWER resources

Abstract

The research aims were to construct an air-breathing paper-based microfluidic fuel cell (paper-based μ FC) and to evaluated it with different soft drinks to provide energy for their prospective use in portable devices as an emergency power source. First, in a half-cell configuration, cyclic voltammetry showed that glucose, maltose, and fructose had specific oxidation zones in the presence of platinum-ruthenium on carbon (PtRu/C) when they were individual. Still, when they were mixed, glucose was observed to be oxidized to a greater extent than fructose and maltose. After, when a paper-based μ FC was constructed, PtRu/C and platinum on carbon (Pt/C) were used as anode and cathode, the performance of this μ FC was mostly influenced by the concentration of glucose present in each soft drink, obtaining maximum power densities at room temperature of 0.061, 0.063, 0.060, and 0.073 mW cm − 2 for Coca Cola ® , Pepsi ® , Dr. Pepper ® , and 7up ® , respectively. Interestingly, when the soft drinks were cooled, the performance was increased up to 85%. Furthermore, a four-cell stack μ FC was constructed to demonstrate its usefulness as a possible power supply, obtaining a power density of 0.4 mW cm − 2 , using Coca Cola ® as fuel and air as oxidant. Together, the results of the present study indicate an alternative application of an μ FC using soft drinks as a backup source of energy in emergencies. [ABSTRACT FROM AUTHOR]

Published

2020

4. Learning Management System-Based Evaluation to Determine Academic Efficiency Performance.

Author

Juárez Santiago, Brenda, Olivares Ramírez, Juan Manuel, Rodríguez-Reséndiz, Juvenal, Dector, Andrés, García García, Raúl, González-Durán, José Eli Eduardo, and Ferriol Sánchez, Fermín

Abstract

At present, supporting e-learning with interactive virtual campuses is a future goal in education. Models that measure the levels of acceptance, performance, and academic efficiency have been recently developed. In light of the above, we carried out a study to evaluate a model for which architecture design, configuration, metadata, and statistical coefficients were obtained using four Learning Management Systems (LMSs). That allowed us to determine reliability, accuracy, and correlation, using and integrating the factors that other researchers have previously used, only using isolated models, such as Anxiety–Innovation (AI), Utility and Use (UU), Tools Learning (TL), System Factors (SF), Access Strategies (AS), Virtual Library (VL), and Mobile Use (MU). The research was conducted over one year in nine groups. The results from an LMS Classroom, architecturally and configuration-wise, had the highest level of performance, with an average of 73% when evaluated using statistical coefficients. The LMS Classroom had a good acceptance and a greater impact: SF, 82%, AI, 80%, and VL, 43%, while out of the seven factors, those with the most significant impact on academic efficiency were TL, 80%, VL, 82%, and MU, 85%. [ABSTRACT FROM AUTHOR]

Published

2020