Venet, Pascal||Redondo-Iglesias, Eduardo <br/><br/>
Batteries and Supercapacitors Aging 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>n/a||abuse test||thermal runaway||lifetime||Li-Ion battery||lithium-ion capacitor||langmuir isotherm||battery management system (BMS)||cycling ageing||degradation||remaining capacity||selection algorithm||electric vehicle||safety||LFP||state-of-charge determination||cathode-electrolyte interphase||state-of-health (SOH)||incremental capacity analysis (ICA)||lamination||capacitance||lead-acid batteries||self-discharge||fast-charging capability||second life battery||ampere-hour throughput||incremental capacity analysis||state of health (SoH)||impedance spectroscopy||partial coulometric counter||Ni-rich cathode||calendar ageing||driving cycles||pseudo-charge||state-of-health||accelerated ageing||lithium iron phosphate||calendar aging||electrochemical impedance spectroscopy||electric vehicles||lifetime prediction||Petri nets||battery||electro mobility||floating aging||aging mechanisms||LiFePO4||autonomous devices||temperature||electrical characterization||cell degradation||lithium-ion battery||ageing||battery management system||NMC||batteries||lithium-ion||state-of-charge monitoring||operative dependability||aging model||battery life testing||aging||embedded algorithm||post-mortem analysis||supercapacitor