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Stabilizing High-Voltage Performance of Nickel-Rich Cathodes via Facile Solvothermally Synthesized Niobium-Doped Strontium Titanate

Peiyuan Guan, Jie Min, Shuo Zhang, Yile Lu, Tianyue Liang, Linghui Meng, Yuan Yu, Yingze Zhou, Fandi Chen, Lu Zhou, Ziheng Feng, Chao Liu, Yifan Hu, Zhi Li, Tao Wan, Yunjian Liu, Judy N. Hart, Dewei Chu

2024ACS Applied Materials & Interfaces19 citationsDOI

Abstract

Ni-rich layered ternary cathodes are promising candidates thanks to their low toxic Co-content and high energy density (∼800 Wh/kg). However, a critical challenge in developing Ni-rich cathodes is to improve cyclic stability, especially under high voltage (>4.3 V), which directly affects the performance and lifespan of the battery. In this study, niobium-doped strontium titanate (Nb-STO) is successfully synthesized via a facile solvothermal method and used as a surface modification layer onto the LiNi 0.8 Co 0.1 Mn 0.1 O 2 (NCM811) cathode. The results exhibited that the Nb-STO modification significantly improved the cycling stability of the cathode material even under high-voltage (4.5 V) operational conditions. In particular, the best sample in our work could provide a high discharge capacity of ∼190 mAh/g after 100 cycles under 1 C with capacity retention over 84% in the voltage range of 3.0–4.5 V, superior to the pristine NCM811 (∼61%) and pure STO modified STO-811-600 (∼76%) samples under the same conditions. The improved electrochemical performance and stability of NCM811 under high voltage should be attributed to not only preventing the dissolution of the transition metals, further reducing the electrolyte’s degradation by the end of charge, but also alleviating the internal resistance growth from uncontrollable cathode–electrolyte interface (CEI) evolution. These findings suggest that the as-synthesized STO with an optimized Nb-doping ratio could be a promising candidate for stabilizing Ni-rich cathode materials to facilitate the widespread commercialization of Ni-rich cathodes in modern LIBs.

Topics & Concepts

Materials scienceNiobiumStrontiumStrontium titanateCathodeNickelDopingAnodeTitanateInorganic chemistryChemical engineeringNanotechnologyMetallurgyOptoelectronicsElectrodeThin filmPhysical chemistryCeramicPhysicsChemistryEngineeringNuclear physicsAdvancements in Battery MaterialsSemiconductor materials and devicesAdvanced Battery Technologies Research
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