Anian Virtual Lab

阿尼安虚拟实验室

• 批准号: 10004571
• 金额: $ 284.97万
• 依托单位: RIVERLANE LTD
• 依托单位国家: 英国
• 项目类别: Small Business Research Initiative
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=10004571
• 关键词: Anian; Virtual; Lab

The UK government has recently identified several important industries for significant investment and innovation. These industries are vital for the UK's future economic, social, and environmental prosperity. The government has also set ambitious environmental targets, including the achievement of net-zero emissions by 2050 to end the UK's contribution to global warming.One of the identified industries is battery technology. Some £246m has been allocated to the Faraday Battery Challenge, addressing research in areas such as battery materials identification, enhancement, and recycling, while £153m has been allocated to quantum technologies, including the enhancement of conventional computers with quantum computing capabilities. This is a fundamentally different approach to computing, using the properties of quantum systems to provide massive improvements in computational speed and accuracy. However, as for many industries, battery and quantum technologies have suffered disruption due to the Covid-19 pandemic. This has stalled research progress and made it harder to future-proof the batteries industry through engagement with disruptive technology like quantum computing.Our project uses quantum computing to address a long-standing bottleneck faced by researchers who develop battery materials. They find it challenging to accurately and efficiently identify and screen new battery materials. Current methods are very unreliable and involve a 'trial and error' approach. It takes several years to verify new battery materials in the lab. This is highly costly and time-consuming for a materials development company. Global annual spend on materials screening, selection, and performance testing exceeds £40bn (Boston Consulting Group 2019). We will create, develop and commercialise a quantum-enhanced battery materials screening product. It will be set up in a 'virtual lab' environment, so that researchers do not need to be physically present in a lab to conduct their research during the pandemic. To check that it works, we will integrate our product into the existing workflows of UK company Johnson Matthey, a global leader in sustainable technology. We will therefore create an unrivalled _quantum-ready_ product, "Anian Virtual Lab", to help UK business and provide commercial advantage in these challenging times.More broadly, our ambition is to create a game-changing product for major battery materials companies to make their research easier and quicker. This will lead to more sustainable technology and help protect the climate and environment for generations to come.

英国政府最近确定了几个需要进行重大投资和创新的重要行业。这些行业对英国未来的经济、社会和环境繁荣至关重要。英国政府还制定了雄心勃勃的环境目标，包括到2050年实现净零排放，以结束英国对全球变暖的贡献。确定的行业之一是电池技术。一些GB 246M被分配给法拉第电池挑战赛，涉及电池材料识别、增强和回收等领域的研究，而GB 153M被分配给量子技术，包括增强具有量子计算能力的传统计算机。这是一种根本不同的计算方法，利用量子系统的性质在计算速度和精度方面提供了巨大的改进。然而，对于许多行业来说，由于新冠肺炎疫情，电池和量子技术受到了干扰。这阻碍了研究进展，并使其更难通过参与量子计算等颠覆性技术来证明电池行业的未来。我们的项目使用量子计算来解决电池材料开发人员面临的长期瓶颈。他们发现，准确有效地识别和筛选新的电池材料具有挑战性。目前的方法非常不可靠，而且涉及一种“试错”的方法。在实验室中验证新的电池材料需要几年时间。对于一家材料开发公司来说，这是非常昂贵和耗时的。全球每年在材料筛选、选择和性能测试方面的支出超过400亿GB(波士顿咨询集团2019年)。我们将创造、开发和商业化一种量子增强型电池材料筛选产品。它将建立在一个“虚拟实验室”的环境中，这样研究人员就不需要在大流行期间亲自出现在实验室进行研究。为了检查它是否有效，我们将把我们的产品整合到英国公司Johnson Matthee的现有工作流程中，该公司是全球可持续技术的领先者。因此，我们将创建一个无与伦比的量子就绪_产品，“Anian虚拟实验室”，以帮助英国企业并在这个充满挑战的时代提供商业优势。更广泛地说，我们的目标是为主要的电池材料公司创造一种改变游戏规则的产品，使他们的研究更容易、更快。这将带来更可持续的技术，并有助于为子孙后代保护气候和环境。