Litcius/Paper detail

Unraveling Atomic-Level Mechanisms of Structural Transitions in Lithium Cobalt Oxide under High-Voltage Conditions

Weiguang Lin, Wei Su, Ting Lin, Qiu Fang, Shiyu Wang, Jing Chen, Y.‐L. He, Dongxiao Wang, Dongdong Xiao, Yingchun Lyu, Qinghua Zhang, Dong Su, Lin Gu

2025Journal of the American Chemical Society25 citationsDOI

Abstract

High-voltage cycling of layered cathode materials in lithium-ion batteries presents challenges related to structural instability. Deciphering atomic-scale structural degradation mechanisms is essential for improving their electrochemical performance at high voltages. This study utilized advanced electron microscopy and principal component analysis to detect subtle spinel-like structure induced by the migration of cobalt atoms within LiCoO 2 subjected to high-voltage cycling at charge voltages of 4.6 and 4.8 V. The formation of the spinel-like configuration was accompanied by the emergence of a densified O1 phase beneath thin spinel-like layer on the (003) facets during charging, along with an intriguing local O3- to P3-type oxygen stacking transition observed in LiCoO 2 charged to 4.8 V. Upon discharge, an enlarged and defective spinel phase preferentially formed on the non-(003) facets, and the migrated cobalt atoms cannot fully return to their original lattice sites, leading to the irreversible structural changes in LiCoO 2 . Long-term cycling revealed that the initial extended spinel phase underwent voltage-dependent evolution pathways, which contributed to accelerated capacity fading observed at the cutoff voltage of 4.8 V. Our findings provide new insights into the atomic-level structural transitions in LiCoO 2 under high-voltage conditions, offering guidance for the development of more structurally robust LiCoO 2 for high-voltage applications.

Topics & Concepts

SpinelChemistryAtomic unitsCobaltOxidePhase transitionElectrochemistryPhase (matter)VoltageCobalt oxideIonCathodeLithium (medication)Chemical physicsNanotechnologyElectrodeMaterials scienceInorganic chemistryCondensed matter physicsMetallurgyPhysical chemistryElectrical engineeringPhysicsEngineeringEndocrinologyMedicineOrganic chemistryQuantum mechanicsAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research