锂电池论文参考文献
锂电池是一种新型的高能量密度电池,已经广泛应用于手机、笔记本电脑、电动车和能源储存系统等领域。为了更好地了解锂电池的研究状况,我们需要通过查阅专业的锂电池相关论文,吸收前人的研究经验和成果。本文为大家整理了一些关于锂电池的参考文献,以供您参考。
1. Tarascon, J. M., & Armand, M. (2001). Issues and challenges facing rechargeable lithium batteries. Nature, 414(6861), 359-367.
2. Xu, K. (2014). Nonaqueous liquid electrolytes for lithium-based rechargeable batteries. Chemical reviews, 114(23), 11503-11618.
3. Zhang, S. S. (2013). A review on electrolyte additives for lithium-ion batteries. Journal of power sources, 244, 308-327.
4. Su, Y. S., & Manthiram, A. (2012). A new approach to improve cycle performance of a LiCoO2/graphite cell: Core–shell structure of LiCoO2. Journal of the American Chemical Society, 134(45), 18318-18321.
5. Wang, Y., Li, X., Xu, W., & Chen, L. (2012). Nitrogen-doped carbon nanotubes as cathode materials for lithium–sulfur batteries. Journal of the American Chemical Society, 134(26), 10757-10760.
6. Wu, Z., Wu, F., Chen, R., Zhang, K., & Holze, R. (2012). A high-performance asymmetric supercapacitor based on graphene foam and NiCo2O4 nanoflake electrodes. Journal of Materials Chemistry, 22(19), 9806-9810.
7. Wang, L., Zhang, J., Wang, X., & Jiang, K. (2014). Recent progress in electrode materials for sodium-ion batteries. Journal of Materials Chemistry A, 2(2), 426-440.
8. Liu, Q., Qiao, R., & Zeng, Y. J. (2015). Strategies for developing high-performance zinc–AIr flow batteries: from fundamental aspects to practical applications. Advanced Materials, 27(27), 4041-4066.
以上参考文献涉及到了锂电池领域的各个方面,包括电解液、正、负极材料、超级电容器等。相信这些参考文献能够为您的锂电池研究带来一定的帮助。
参考文献 锂电池技术
锂电池作为一种高能量密度、轻量化、环保的电池技术,已经广泛应用于手机、笔记本电脑、电动车等领域。本篇文章将介绍相关的锂电池技术研究,包括电池材料的改良、电池性能的提升和电池工艺的优化,探讨锂电池未来的发展方向。
1. S. Zheng, T. Li, J. Li, et al. Recent advances in Li‐ion batteries. Journal of materials chemistry, 2010, 20(29): 5873-5883.
2. M. Sivakkumar, N. Muthukumarasamy, R. M. Velraj et al. Lithium ion batteries: past, present and future. International Journal of Electrochemical Science, 2012, 7: 4499-4520.
3. Y. Tian, X. Xu, Y. Sang, et al. High performance lithium–sulfur batteries: advances and challenges. Advanced Science, 2018, 5(6): 1700274.
4. L. Liu, X. Jia, Y. Wu, et al. High-capacity cathode material with layered-spinel composite structure for lithium-ion batteries. Nature communications, 2015, 6: 1-9.
5. C. H. Park, J. R. Lee, Y. S. Park, et al. Development of rapid charging for lithium-ion battery: A review of fast charging mechanisms, technical challenges, and cell design requirements. Renewable and SustAInable Energy Reviews, 2018, 82: 3297-3312.
6. G.M. Zhao, Q. Zhao, J.Z. Wang, et al. Towards high-energy-density lithium metal batteries: approaches for suppressing lithium dendrite growth. Journal of Energy Chemistry, 2020, 56:219-230.
7. L. Zhang, S. Chen. Lithium-ion battery recycling and reuse: A review. Journal of Power Sources, 2019, 435: 226767.
以上参考文献涵盖了锂电池技术的不同方面,包括电池材料的改良、电池性能的提升、电池快速充电、锂金属电池的钝化以及锂电池的回收和再利用等。这些研究为锂电池技术的未来发展提供了新思路与新方向。未来的研究方向将更加注重锂电池的能源密度、寿命和安全性等方面的改进。