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Comprehensive Enhancement of Nanostructured Lithium-Ion Battery Cathode Materials via Conformal Graphene Dispersion.

Nano letters (2017-02-28)
Kan-Sheng Chen, Rui Xu, Norman S Luu, Ethan B Secor, Koichi Hamamoto, Qianqian Li, Soo Kim, Vinod K Sangwan, Itamar Balla, Linda M Guiney, Jung-Woo T Seo, Xiankai Yu, Weiwei Liu, Jinsong Wu, Chris Wolverton, Vinayak P Dravid, Scott A Barnett, Jun Lu, Khalil Amine, Mark C Hersam
RESUMEN

Efficient energy storage systems based on lithium-ion batteries represent a critical technology across many sectors including consumer electronics, electrified transportation, and a smart grid accommodating intermittent renewable energy sources. Nanostructured electrode materials present compelling opportunities for high-performance lithium-ion batteries, but inherent problems related to the high surface area to volume ratios at the nanometer-scale have impeded their adoption for commercial applications. Here, we demonstrate a materials and processing platform that realizes high-performance nanostructured lithium manganese oxide (nano-LMO) spinel cathodes with conformal graphene coatings as a conductive additive. The resulting nanostructured composite cathodes concurrently resolve multiple problems that have plagued nanoparticle-based lithium-ion battery electrodes including low packing density, high additive content, and poor cycling stability. Moreover, this strategy enhances the intrinsic advantages of nano-LMO, resulting in extraordinary rate capability and low temperature performance. With 75% capacity retention at a 20C cycling rate at room temperature and nearly full capacity retention at -20 °C, this work advances lithium-ion battery technology into unprecedented regimes of operation.

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Sigma-Aldrich
Graphite dispersion, few-layers (3-15 graphene layers), 1.0mg/mL in acetone-water, avg. no. of layers, 3 ‑ 15