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Suppression and Mechanism of Voltage Decay in Sb-Doped Lithium-Rich Layered Oxide Cathode Materials

Zhaoyong Chen, Qiming Liu, Xiaoyan Yan, Huali Zhu, Jun Liu, Junfei Duan, Yanxia Wang

2022The Journal of Physical Chemistry Letters18 citationsDOI

Abstract

Voltage decay during cycling is the major problem for lithium-rich layered oxide cathodes. Here, we designed Sb-doped lithium-rich layered oxides prepared by a coprecipitation-solvent thermal method, aiming to alleviate the voltage decay of lithium-rich layered oxides. The midpoint discharge voltage and specific capacity of Li1.20Ni0.133Co0.133Mn0.633Sb0.01O2 (LLMO-Sb1) demonstrate almost no decaying after 100 cycles at 1 C. Moreover, it exhibits a large rate capacity (215 mAh g–1 at 5 C). The suppressed voltage decay and enhanced cycle performance of Sb-doped material are attributed to the high Sb–O bond energy, which can enhance the stability of the layered structure and suppress the layered-to-spinel phase transition. Moreover, Sb doping improves the rate capacity by reducing the energy barrier of lithium ion diffusion. This work opens a gate to prevent the oxidation of superoxo and peroxo, stabilizing the layered structure by selecting an element with a suitable radius and electronegativity.

Topics & Concepts

CoprecipitationMaterials scienceLithium (medication)ElectronegativityOxideDopingCathodeSpinelIonic radiusChemical engineeringInorganic chemistryIonOptoelectronicsChemistryPhysical chemistryMetallurgyMedicineOrganic chemistryEngineeringEndocrinologyAdvancements in Battery MaterialsSemiconductor materials and devicesAdvanced Battery Materials and Technologies
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