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Understanding improved capacity retention at 4.3 V in modified single crystal Ni-rich NMC//graphite pouch cells at elevated temperature

Galo J. Páez Fajardo, Meltiani Belekoukia, Satish Bolloju, Eleni Fiamegkou, Ashok S. Menon, Zachary Ruff, Zonghao Shen, Nickil Shah, Erik Björklund, Mateusz Zuba, Tien‐Lin Lee, P. Thakur, Robert S. Weatherup, Ainara Aguadero, Melanie Loveridge, Clare P. Grey, Louis F. J. Piper

2023RSC Applied Interfaces18 citationsDOIOpen Access PDF

Abstract

Al-surface doped Ni-rich single crystal material translates into better capacity retention in long-term cycling at higher UCV and cycling temperature.

Topics & Concepts

GraphiteCyclingMaterials scienceSingle crystalPouchCrystal (programming language)Chemical engineeringCrystallographyComposite materialChemistryGeologyComputer scienceEngineeringPaleontologyArchaeologyHistoryProgramming languageAdvancements in Battery MaterialsSilicon and Solar Cell TechnologiesSemiconductor materials and interfaces
Understanding improved capacity retention at 4.3 V in modified single crystal Ni-rich NMC//graphite pouch cells at elevated temperature | Litcius