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Utilizing Magnetic‐Field Modulation to Efficiently Improve the Performance of LiCoO<sub>2</sub>||Graphite Pouch Full Batteries

Weijun Zhang, Jingguo Gao, Yulin Huang, Guigui Xu, Yue Chen, Guiying Zhao, Yingbin Lin, Zhigao Huang, Jiaxin Li

2023Advanced Functional Materials11 citationsDOIOpen Access PDF

Abstract

Abstract The present lithium‐ion battery technology competition almost focuses on finding new materials, while less effort is invested in electrode engineering improvement with low‐cost. This study proposes a simple method of modulating the preferred orientation of crystal phases in LiCoO 2 electrode using a ≈500 mT magnetic‐field, cheaply and efficiently improving the performance of LiCoO 2 ||graphite pouch full batteries, including cycling stability, rate performance, and thermal safety performance. Under 3.0 C and 45 °C strict test conditions, LiCoO 2 ‐M ⊥ ||graphite battery even outputs the capacity retention rate of 42.8% after 1000 cycles, while that of pure‐LiCoO 2 battery is only 4.4%. Especially, the thermal runaway temperature of the battery needling experiment decreases by considerable 7.7 °C after magnetic‐field modulation. Comprehensive characterizations reveal that vertical magnetic field causes spin alignment of LiCoO 2 crystals along the (003) direction. This arrangement effectively improves the Li + diffusion dynamic and the interface compatibility of the electrode, suppressing the electrode polarization. During the cycling processes, the preferred orientation of LiCoO 2 particles forms an enhanced conductive network due to the formation of cross‐linked “Li + poor regions” on the surface, ultimately achieving significant performance improvement. This work can provide a potential low‐cost strategy for the production of commercial lithium‐ion batteries.

Topics & Concepts

Materials scienceElectrodeGraphiteLithium-ion batteryNanotechnologyElectrical conductorBattery (electricity)Polarization (electrochemistry)OptoelectronicsChemical engineeringComposite materialPower (physics)Physical chemistryEngineeringPhysicsChemistryQuantum mechanicsAdvancements in Battery MaterialsAdvanced Battery Technologies ResearchAdvanced Battery Materials and Technologies
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