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Stabilizing a Li–Mn–O Cathode by Blocking Lattice O Migration through a Nanoscale Phase Complex

Weiyuan Huang, Ming‐Jian Zhang, Mingyuan Ge, Shunning Li, Lin Xie, Zhefeng Chen, Gang Wang, Junhao Lin, Jimin Qiu, Lei Yu, Jianguo Wen, Guoxi Ren, Cong Lin, Wenguang Zhao, Haibiao Chen, Feng Pan

2023ACS Energy Letters19 citationsDOIOpen Access PDF

Abstract

Among all intercalation cathodes for Li-ion batteries, Li–Mn–O layered oxides offer the highest initial energy density at the lowest cost, due to the joint contribution from cationic and anionic redox chemistry. However, the poor cycling capability, resulting from the continuous lattice O loss at high potentials (>4.5 V), hinders practical applications. Herein, we employed phase complex engineering to obtain a new Li–Mn–O nanohybrid cathode featuring the uniform and coherent integration of layered nanodomains and spinel nanodomains. The combination of DFT calculations, synchrotron-based transmission X-ray microscopy, in situ differential electrochemical mass spectrometry, in situ synchrotron XRD, and electrochemical tests demonstrated that the O migration path in layered nanodomains was blocked by the neighboring spinel nanodomains with a higher oxygen vacancy migration energy, thus effectively suppressing the irreversible lattice O loss at high potentials and enhancing the cycling stability in both capacity and average voltage. The strategy is experimentally demonstrated to be effective and it leads to a new path for developing stable high-energy-density cathode materials.

Topics & Concepts

SpinelCathodeElectrochemistryMaterials scienceIntercalation (chemistry)SynchrotronHigh-resolution transmission electron microscopyTransmission electron microscopyChemical physicsChemical engineeringNanotechnologyChemistryElectrodeInorganic chemistryPhysical chemistryNuclear physicsPhysicsMetallurgyEngineeringAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
Stabilizing a Li–Mn–O Cathode by Blocking Lattice O Migration through a Nanoscale Phase Complex | Litcius