Person:
Agüí Chicharro, María Lourdes

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First Name
María Lourdes
Last Name
Agüí Chicharro
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Ciencias Químicas
Department
Química Analítica
Area
Química Analítica
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UCM identifierScopus Author IDDialnet ID

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20232
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Start date: 2020 × End date: 2023 ×

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Now showing 1 - 2 of 2
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    Publication
    Implementación de la metodología flipped classroom en los laboratorios de Química Analítica
    (2023-05-31) Reviejo García, Ángel Julio; Agüí Chicharro, María Lourdes; Campuzano Ruiz, Susana; Gamella Carballo, Maria; García Martín, Ángel Felipe; González Cortés, Araceli; Guerrero Blanco, José Ignacio; Mateos Briz, María Raquel; Miguel Bravo, María; Pérez Ginés, Víctor; Reviejo Martínez, Eva; Romano Martín, Santiago; Ruiz-Valdepeñas Montiel, Víctor; Sánchez Tirado, Esther; Santiago Sáez, Andrés Sebastián; Serafín González-Carrato, Verónica; Torrente Rodríguez, Rebeca Magnolia; Yáñez-Sedeño, Paloma; Pedrero Muñoz, María
    Adaptar el sistema tradicional de aprendizaje a las necesidades actuales del alumnado empleando la metodología flipped classroom en el laboratorio de Química Analítica I, con el objetivo de fomentar el aprendizaje utilizando herramientas digitales.
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    Publication
    Electrochemical (Bio)Sensing Devices for Human-Microbiome-Related Biomarkers
    (MDPI AG, 2023) Sánchez-Tirado, Esther; Agüí Chicharro, María Lourdes; González-Cortés, Araceli; Campuzano Ruiz, Susana; Yáñez-Sedeño, Paloma; Pingarrón Carrazón, José Manuel
    The study of the human microbiome is a multidisciplinary area ranging from the field of technology to that of personalized medicine. The possibility of using microbiota biomarkers to improve the diagnosis and monitoring of diseases (e.g., cancer), health conditions (e.g., obesity) or relevant processes (e.g., aging) has raised great expectations, also in the field of bioelectroanalytical chemistry. The well-known advantages of electrochemical biosensors—high sensitivity, fast response, and the possibility of miniaturization, together with the potential for new nanomaterials to improve their design and performance—position them as unique tools to provide a better understanding of the entities of the human microbiome and raise the prospect of huge and important developments in the coming years. This review article compiles recent applications of electrochemical (bio)sensors for monitoring microbial metabolites and disease biomarkers related to different types of human microbiome, with a special focus on the gastrointestinal microbiome. Examples of electrochemical devices applied to real samples are critically discussed, as well as challenges to be faced and where future developments are expected to go..