Litcius/Paper detail

Aging mechanisms of NMC811/Si-Graphite Li-ion batteries

Ekaterina Laakso, S. G. Efimova, Mattia Colalongo, Pertti Kauranen, Katja Lahtinen, Emilio Napolitano, V. Ruiz, Jože Moškon, Miran Gaberšček, Juyeon Park, Steffen Seitz, Tanja Kallio

2024Journal of Power Sources45 citationsDOIOpen Access PDF

Abstract

Electrode degradation processes at various Li-ion batteries’ state-of-health (SoH 100 %, 80 %, 50 %, and 30 %) and cycling temperatures (5 °C, 23 °C, and 45 °C) were investigated. For this purpose, the standard format of Li-ion cylindrical 18,650 batteries with Si-Graphite negative and LiNi 0 · 8 Co 0 · 1 Mn 0 · 1 O 2 (NMC811) positive electrodes were cycled with registering battery parameters and the electrochemical impedance spectrum were recorded after every 200 cycles. Once reaching their end-of-life, electrodes from cycled batteries were subjected to post-mortem analysis. NMC811 positive electrode was observed to crack during the charge and discharge processes, suffered by irreversible phase transition, transition metal dissolution, cathode electrolyte interphase growth, and cation mixing. The Si-Graphite negative electrode material was also affected by crack formation, layer exfoliation, solid electrolyte interphase (SEI) recompositing, Li dendrite growth, transition metal contamination, and Si dissolution. Degradation of components leads to an increase of the contact resistance, Li + diffusion limitations, reduction of active materials participating in Li-ion storage and, as a result, capacity fade that finally rendered the battery utilization unfeasible. Degradation processes can be detected by capacity fade and impedance growth of the full battery. High temperature accelerates electrode degradation processes when low temperature leads to SEI and Li dendrite growth. • Cycling and post-mortem analysis of Li batteries • Comprehensive analysis of electrodes from fresh and cycle aged cells • Temperature and state-of-health degradation dependence of Li batteries • Key aging mechanisms have been discussed

Topics & Concepts

CyclingGraphiteMaterials scienceElectrodeIonForensic engineeringChemical engineeringMetallurgyChemistryEngineeringOrganic chemistryPhysical chemistryArchaeologyHistoryAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies
Aging mechanisms of NMC811/Si-Graphite Li-ion batteries | Litcius