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Supporting World-Class Labs at the University of Manchester (2022)

支持曼彻斯特大学世界一流的实验室（2022）

基本信息

批准号：
EP/X035093/1
负责人：
Richard Curry
金额：
$ 181.57万
依托单位：
University of Manchester
依托单位国家：
英国
项目类别：
Research Grant
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=EP%2FX035093%2F1
关键词：
Supporting World Class Labs University

项目摘要

Since its creation in 2004, the University of Manchester has focussed on building its reputation for world-class research, and has risen rapidly in world university league tables. It now ranks within the top 35 institutions in the world. Our stated aim is to to provide state-of-the-art facilities and equipment, and pioneer arrangements for their more efficient use, including sharing.Now we propose to use our EPSRC Capital Award for Core Equipment to support researchers in the Faculty of Science and Engineering and Faculty of Biology, Medicine and Health Sciences, by providing state-of-the-art equipment in fields aligned with University of Manchester strategic priorities. Following a round of competitive bidding, the projects we have chosen for investment are:- a high-pressure universal materials testing machine equipment with an environmental chamber capable of heating to 600 degC and cooling to minus 150 degC. Mechanical testing is an essential capability for structural materials research, and this new machine will be used to test all materials from advanced alloys through to polymers and composites, including concrete. Physicists, materials scientists, mechanical and civil engineers all rely on mechanical testing in their research.- a temperature-controlled environmental triaxial automated system. Understanding the effects of changing temperature and relative humidity on the behaviour of soil and soft rocks is an important consideration for the design of critical infrastructure drawing the attention of scientists and engineers due to the wider impacts of climatic changes and extreme weathers. Such considerations have become critical for developing disaster management strategies and providing critical infrastructures with improved resilience.- a plasma glow discharging unit that will be utilised for the cleaning and surface preparation of grids used for 'mounting' cryogenic electron microscopy samples. Operated in a partial vacuum plasma which contains a controllable blend of gases, this can affect the surface properties of a carbon grid immediately before preparation. For example, Argon changes the surface charge, while Hydrogen and Oxygen react and form a plasma Hydrogen Peroxide. Every sample has a unique physical behaviour and having multiple ways of preparing grids is the most efficient way to address quality and speed up throughput from the facility.- a single-photon detection system that is essential for the development of new materials and devices that rely on quantum effects to provide enhanced functionality. The world is entering a new phase of quantum technology development which promises to transform our lives through the ability to sense our environment to ever more sensitive levels and through quantum computers enable drug discovery like never before. Realising these new quantum technologies depend upon the development of materials designed specifically for this purpose such as the single photon (light particle) emitting materials that this system will study.Overall, these investments support our world-class laboratories provision to researchers at Manchester, and from beyond who access them, and in particular ensure they are able to deliver internationally leading research. Within this proposal we have specifically supported our Early Career Researchers and Research Technical Specialist communities through their direct inclusion in the proposal preparation and leadership.

自2004年成立以来，曼彻斯特大学一直致力于建立其世界级研究的声誉，并在世界大学排行榜上迅速上升。它现在是世界上排名前35位的机构。我们的既定目标是提供最先进的设施和设备，并为更有效地使用它们做出先锋安排，包括共享。现在，我们建议使用我们的EPSRC核心设备资本奖，通过在与曼彻斯特大学战略优先事项一致的领域提供最先进的设备，来支持科学与工程学院和生物，医学与健康科学学院的研究人员。经过一轮竞争性招标，我们选择投资的项目是：-高压万能材料试验机设备，具有能够加热到600摄氏度和冷却到零下150摄氏度的环境室。机械测试是结构材料研究的重要能力，这台新机器将用于测试从先进合金到聚合物和复合材料的所有材料，包括混凝土。物理学家、材料科学家、机械和土木工程师在他们的研究中都依赖于机械测试。一种温控环境三轴自动化系统。了解温度和相对湿度变化对土壤和软岩特性的影响是关键基础设施设计的一个重要考虑因素，由于气候变化和极端天气的广泛影响，引起了科学家和工程师的注意。这些考虑因素对于制定灾害管理战略和提供具有更高复原力的关键基础设施至关重要。等离子体辉光放电装置，将用于清洁和表面准备网格用于'安装'低温电子显微镜样品。在含有可控混合气体的部分真空等离子体中操作，这可以在制备前立即影响碳网格的表面性质。例如，氩气改变表面电荷，而氢气和氧气反应并形成等离子体过氧化氢。每个样品都有独特的物理行为，采用多种方法制备网格是解决质量和加快设施吞吐量的最有效方法。单光子探测系统，对于开发依赖量子效应提供增强功能的新材料和设备至关重要。世界正在进入量子技术发展的新阶段，它有望通过将我们的环境感知到前所未有的敏感水平来改变我们的生活，并通过量子计算机实现前所未有的药物发现。实现这些新的量子技术取决于专门为此目的设计的材料的开发，例如该系统将研究的单光子（光粒子）发射材料。总体而言，这些投资支持我们为曼彻斯特的研究人员提供世界一流的实验室，以及来自其他地区的访问者，特别是确保他们能够提供国际领先的研究。在此提案中，我们特别支持我们的早期职业研究人员和研究技术专家社区，通过他们直接参与提案的准备和领导。