Your search keyword '"Marta Valledor Llopis"' showing total 3 results

1. Optoelectronic Instrumentation and Measurement Strategies for Optical Chemical (Bio)Sensing

Author

María Teresa Fernández-Argüelles, Ana Soldado Cabezuelo, Marta Valledor Llopis, Francisco Javier Ferrero Martin, Juan Carlos Campo Rodriguez, José M. Costa-Fernández, and Alberto Martínez

Subjects

Technology, Optical fiber, reflectance, Computer science, QH301-705.5, QC1-999, New materials, law.invention, ratiometric measurements, law, General Materials Science, Instrumentation (computer programming), Biology (General), Instrumentation, QD1-999, Fluid Flow and Transfer Processes, business.industry, optical fiber sensors, optoelectronic instrumentation, Process Chemistry and Technology, Physics, General Engineering, Engineering (General). Civil engineering (General), Reflectivity, Computer Science Applications, Chemistry, phosphorescence, Optoelectronics, fluorescence, TA1-2040, business, Engineering design process

Abstract

There is a growing interest in the development of sensitive, portable, and low-cost instrumentation for optical chemical (bio)sensing. Such instrumentation can allow real-time decision-making for industry, farmers, and researchers. The combination of optical fiber schemes, luminescence spectroscopy techniques, and new materials for sensor immobilization has allowed the growth of optical sensors. This article focuses on the development of low-cost optoelectronic instrumentation and measurement strategies for optical chemical (bio)sensing. Most of the articles in this field have focused on the chemical sensors themselves, although few have covered the design process for optoelectronic instrumentation. This article tries to fill this gap by presenting designs for real applications, as carried out by the authors. We also offer an introduction to the optical devices and optical measurement techniques used in this field to allow a full understanding of the applications.

Published

2021

2. Handheld Device for Rapid Detection of miRNA based on a Ratiometric Transmittance Scheme

Author

Adrian Sanchez Visedo, Jorge Losada Matias, Francisco Ferrero, María Teresa Fernández-Argüelles, Jose J. Costa-Fernandez, Marta Valledor Llopis, Ana Soldado Cabezuelo, and Juan Carlos Campo

Subjects

business.industry, 020208 electrical & electronic engineering, 010401 analytical chemistry, food and beverages, 02 engineering and technology, Optical biosensor, 01 natural sciences, Rapid detection, 0104 chemical sciences, 0202 electrical engineering, electronic engineering, information engineering, Transmittance, Medicine, Naked eye, Biological system, business

Abstract

MicroRNAs (miRNAs) are a novel class of biomarkers that can be present in different biological samples, which can be related to many diseases. Controlled aggregation of gold nanoparticles (GNPs) in the presence of miRNAs can be used to perform a rapid detection of miRNAs based on color change. Sometimes the color change can be observed with the naked eye; however, this is not always possible. This work proposes the design of a novel instrumental prototype that allows performance of simultaneous transmittance measurements at different wavelengths. Once the signals are obtained, the system calculates the 525nm/650nm transmittance ratio and the miRNA concentration, displaying and recording the results in a smartphone. This prototype has been validated to detect the miRNA "miR146a," which is found in higher concentrations in milk and tissues in cases of bovine mastitis.

Published

2020

3. A Novel Handheld Fluorimeter for Rapid Detection of Escherichia coli in Drinking Water

Author

Irene Mendez Suarez, Juan Carlos Campo Rodriguez, Marta Valledor Llopis, Laura Marin Fernandez, Francisco Olmos Fernandez Corugedo, Javier Fernández, Francisco Javier Ferrero Martin, Ignacio Gutierrez-del-Rio Menendez, Felipe Lombó Brugos, and Natalia Cobian Fernandez

Subjects

0301 basic medicine, business.industry, Microorganism, 030106 microbiology, Indicator bacteria, Sewage, Contamination, medicine.disease_cause, 03 medical and health sciences, Biomarker, Environmental chemistry, Fluorometer, medicine, Environmental science, Electrical and Electronic Engineering, Water pollution, business, Instrumentation, Escherichia coli

Abstract

The microbiological quality of drinking water is a concern to consumers, water suppliers, regulators, and public health authorities alike. Monitoring the microbiological quality of drinking water largely relies on the examination of indicator bacteria such as coliforms like Escherichia coli . E. coli is widely used as an indicator of fecal pollution when monitoring the microbial quality of drinking water, because it is abundant in all mammal feces and, therefore, is found in sewage and in natural waters contaminated with fecal matter, from human origin, wild animals, or derived from agricultural activity. This paper describes the development of a novel handheld fluorimeter for the rapid detection of E. coli in drinking water based on a specific cellular biomarker. The measurement system is based on a photomultiplier tube that captures the fluorescence signal produced by the cellular biomarker when it is excited by an ultraviolet LED. The cellular biomarker is also developed and it consists of a chimeric protein with a Green fluorescent protein (GFP) in the N-terminal domain and a specific amino acid sequence in the C-terminal domain (Colicin S4) that targets specifically the structure of the microorganism to be detected. The instrument is simple to use, lightweight, and can be powered by either an ac/dc power adapter or a rechargeable battery, making it an excellent choice for the rapid detection of E. coli in drinking water in field studies and laboratory measurements.

Published

2016