Advanced Battery Materials and Synthesis Methods

先进电池材料及合成方法

• 批准号: 558364-2020
• 负责人: Obrovac, MarkMN
• 金额: $ 27.75万
• 依托单位: Dalhousie University
• 依托单位国家: 加拿大
• 项目类别: Alliance Grants
• 财政年份: 2022
• 资助国家: 加拿大
• 起止时间: 2022-01-01 至 2023-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=747575
• 关键词: Advanced; Battery; Materials; Synthesis; Methods

This research program will explore newly discovered breakthroughs in battery materials synthesis made in Dr. Obrovac's laboratory. New dry synthesis methods enabling the production battery-grade materials in large amounts with lower cost raw materials, and with no waste and ~100% yields will be explored. This is in contrast to the current production methods that utilize high cost, highly refined raw materials, and produce large amounts of waste water and waste solids. Research will be conducted to utilize these new methods to make commercial-quality materials and in scaling them up for evaluation in commercial format Li-ion batteries. This research has the potential of making batteries with greatly reduced cost and lower environmental impact than today's Li-ion cells. These low cost and low environmental impact methods also enable the creation of battery materials more advanced than today's materials, including particles having precisely controlled internal structure and composition modulation, particle coatings to protect the particles from degradation, and particles having high energy density nanoparticles embedded within their structure. This synthesis flexibility allows researchers to specifically design highly engineered particles with internal chemistries to enable high energy density and long lifetimes. Such materials will be scaled-up for evaluation in commercial format Li-ion batteries. Materials resulting from this research program have the potential to significantly lower battery cost (> 30% cost reduction) and environmental impact, while providing a 15-20% increase in battery energy storage and in lifetime.

该研究项目将探索奥布罗瓦茨博士实验室在电池材料合成方面新发现的突破。将探索新的干法合成方法，能够使用更低成本的原材料大量生产电池级材料，并且不会产生浪费，且产率约为 100%。这与目前使用高成本、高度精炼的原材料并产生大量废水和废固体的生产方法形成鲜明对比。将进行研究，利用这些新方法来制造商业品质的材料，并扩大其规模以用于商业形式的锂离子电池的评估。这项研究有可能制造出比当今的锂离子电池成本大大降低、对环境影响更小的电池。这些低成本和低环境影响的方法还能够创造出比当今材料更先进的电池材料，包括具有精确控制的内部结构和成分调制的颗粒、保护颗粒免于降解的颗粒涂层以及嵌入有高能量密度纳米颗粒的颗粒。他们的结构。这种合成灵活性使研究人员能够专门设计具有内部化学成分的高度工程化粒子，以实现高能量密度和长寿命。此类材料将被扩大规模以用于商业形式锂离子电池的评估。该研究项目产生的材料有可能显着降低电池成本（成本降低 > 30%）和环境影响，同时使电池能量存储和使用寿命增加 15-20%。