PT5.296 - Metal-Organic Frameworks (MOFs)-Based Chemoresistive gas Sensors for Early Thermal Runaway Detection in Lithi-um-ion Batteries

I. Fort-Grandas; S. Aljemazi; A. Estany-Macià; Y. Mendoza-Gamero; P. Pellegrino; M. López; C. Serre; A. Grabulosa-Rodriguez; M. Moreno-Sereno; D. Sainz; A. Vidal-Ferran; G. Domènech-Gil; A. Romano-Rodriguez

PT5.296 - Metal-Organic Frameworks (MOFs)-Based Chemoresistive gas Sensors for Early Thermal Runaway Detection in Lithi-um-ion Batteries

Event: EUROSENSORS XXXVI
2024-09-01 - 2024-09-04
Debrecen (Hungary)
Band: Poster
Chapter: PT5 - Chemical Sensors
Author(s): I. Fort-Grandas, S. Aljemazi, A. E., Y. Mendoza-Gamero, P. Pellegrino, M. López, C. Serre, A. Grabulosa-Rodriguez, M. Moreno-Sereno, D. Sainz, A. Vidal-Ferran - , , G. Domènech-Gil, A. Romano-Rodriguez - Universitat de Barcelona, Barcelona (Spain)
Pages: 415 - 416
DOI: 10.5162/EUROSENSORSXXXVI/PT5.296
ISBN: 978-3-910600-03-4
Price: free

Abstract

Lithium-ion batteries (LiB) are used nowadays in a large number of applications, from electric vehicles to mobile phones and laptops, among others. The hazard of the operation of the LiBs is their thermal runaway, which can give rise to fire and explosion. Prior to these processes and while the battery is degrading, toxic and flammable gases are generated, whose detection could help in reducing the haz-ards. In this work, we synthesize conductive metal-organic frameworks (MOFs) and we prepare and we test them as room-temperature chemoresistive sensors for CO2, CH4 and H2.

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