Giga-scale demonstration of 3d electrodes for automotive applications

汽车应用 3D 电极的千兆级演示

• 批准号: 10076986
• 金额: $ 59.34万
• 依托单位: ADDIONICS LIMITED
• 依托单位国家: 英国
• 项目类别: Collaborative R&D
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=10076986
• 关键词: Giga; scale; demonstration; 3d; electrodes

With the UK's aim to ban combustion-engine sales by 2030 and achieve carbon neutrality by 2050, the UK urgently needs highly innovative solutions to meet these targets. It also needs to maintain competitiveness in a global EV market expected to reach $68bn in 2022\.The project will utilise technology developed by Addionics for 3D current collector fabrication that has shown significant battery performance improvements. It will build on the earlier success of InnovateUK-funded project STELLAR. Addionics have developed their manufacturing technologies where they can be produced for integration at UKBIC. Addionics has developed an innovative chemistry agnostic technology and can leverage current state of the art battery chemistries. Addionics already offers immediate drop in 3D materials to many small coating lines placing the technology at TRL6 and MRL6\. Through validation of 3DCC at giga-scale the partners expect that adoption of Addionics 3DCC for existing battery technologies could quickly identify an opportunity to create value for the broader UK battery industry and define a totally disruptive approach. As such Addionics is looking to disrupt conventional approaches in cell innovation.Addionics intend to use every unit operation for cell assembly available for standard format pouch cells at UKBIC and validate the 3DCC technology. The project is targeting a complete cell development taking Addionics 3DCC material through mixing, coating, calendaring and slitting, up to cell assembly, formation and ageing. Access to UKBIC cutting-edge 'Giga-Factory' facility to help Addionics transfer development to production of the latest generation of current collectors. Key objectives for this project include validating at commercially representative scales new verticals in electrode manufacture through improvements to the manufacturing efficiency, performance and environmental profile of the latest current collectors developed by Addionics.

英国的目标是到2030年禁止内燃机销售，到2050年实现碳中和，英国迫切需要高度创新的解决方案来实现这些目标。它还需要在预计到2022年达到680亿美元的全球电动汽车市场中保持竞争力。该项目将利用Addionics开发的3D集电器制造技术，该技术已显示出显著的电池性能改进。它将建立在InnovateUK资助的STELLAR项目早期成功的基础上。Addionics开发了他们的制造技术，可以在UKBIC进行集成。Addionics开发了一种创新的化学不可知技术，可以利用当前最先进的电池化学。Addionics已经为许多小型涂层生产线提供了3D材料的即时下降，将该技术置于TRL 6和MRL 6\。通过对千兆级3DCC的验证，合作伙伴预计，在现有电池技术中采用Addionics 3DCC可以迅速发现为更广泛的英国电池行业创造价值的机会，并定义一种完全颠覆性的方法。因此，Addionics正在寻求打破传统的电池创新方法。Addionics打算使用UKBIC标准格式袋电池组装的每个单元操作，并验证3DCC技术。该项目的目标是采用Addionics 3DCC材料进行完整的电池开发，包括混合、涂覆、封装和切割，直至电池组装、成型和老化。使用UKBIC尖端的“Giga-Factory”设施，帮助Addionics将最新一代集流体的开发转移到生产。该项目的主要目标包括通过改进Addionics开发的最新集电器的制造效率、性能和环境状况，在商业代表性规模上验证电极制造中的新垂直领域。