EPRSC Resource Only Strategic Equipment: the Warwick Analytical Science Centre

EPRSC 仅资源战略设备：沃里克分析科学中心

• 批准号: EP/V007688/1
• 负责人: Steven Brown
• 金额: $ 121.53万
• 依托单位: University of Warwick
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2021
• 资助国家: 英国
• 起止时间: 2021 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FV007688%2F1
• 关键词: EPRSC; Resource; Only; Strategic; Equipment

Access to analytical instrumentation lies at the heart of scientific progress; from the earliest days, with the availability of the first Dutch microscopes in the early 17th century, to the cutting edge of most advanced fields of contemporary science. The vast majority of advances and breakthroughs in knowledge are linked to the invention or improvement of analytical equipment and their availability both enables and sustains modern science and technology. Thus, it would not be possible to imagine chemistry without nuclear magnetic resonance spectroscopy, molecular biology without electron microscopy, or material science without X-ray diffraction.The University of Warwick is one of the foremost centres for analytical science in the UK, with an internationally leading analytical equipment infrastructure underpinning an unrivalled spectrum of research areas, from functional materials (catalysts, polymers, composites, battery electrodes, photovoltaics, steels, nanoparticles, diamond and quantum materials) to biomedical research (pharmaceuticals, novel antimicrobials, detection of infectious agents, biologic cryopreservation, drug delivery, metabolism and ageing, and bacterial antibiotic resistance). Warwick's philosophy in managing this unique set of facilities has been characterised by the drive to maximise its access for all researchers from undergraduate students to Professors, a commitment that is grounded in the University's Research Strategy. This has been achieved by organising the most advanced, state-of-the-art equipment into a range of university-wide Research Technology Platforms (RTPs) and interdepartmental facilities available to both internal and external users. This unique model brings together experts and instrument developers with frequent or occasional end-users and has been the origin of a large number of highly successful collaborative research initiatives across the Departments of Chemistry, Engineering, Life Sciences and Physics, and with a number of other UK universities and industrial partners.This proposal is aimed at sustaining and expanding the access to Warwick's analytical equipment infrastructure, with a particular focus towards supporting research and postgraduate training and, concurrently, expanding multi-disciplinary collaboration and end-user engagement. This will be achieved by investing in research technical professionals (RTProfs), who are integral to deriving optimum benefit from the existing substantial infrastructure investment. Their presence will represent an essential asset for the effective and consistent training, at the highest standards, of PhD students in the Midlands and across the UK and will provide them with over 480 days of seed-corn use of the analytical science instrumentation at Warwick. The RTProfs will also be responsible for showcasing the availability of funding for PhD students and for disseminating analytical science best practice, through the organisation of national analytical science meetings that will involve UK universities, learned societies, and industry.This investment has an overarching vision to substantially promote analytical sciences to the UK, with Warwick playing a key role nationally as hub of excellence and a beacon for its development and practice.

分析仪器的使用是科学进步的核心;从最早的日子，随着世纪早期第一台荷兰显微镜的可用性，到当代科学最先进领域的前沿。绝大多数知识的进步和突破都与分析设备的发明或改进有关，它们的可用性使现代科学和技术得以实现和维持。因此，如果没有核磁共振光谱学，就无法想象化学，如果没有电子显微镜，就无法想象分子生物学，如果没有X射线衍射，就无法想象材料科学。沃里克大学是英国最重要的分析科学中心之一，拥有国际领先的分析设备基础设施，支撑着从功能材料到材料的无与伦比的研究领域从催化剂、聚合物、复合材料、电池电极、光致发光材料、钢、纳米颗粒、金刚石和量子材料）到生物医学研究（药物、新型抗菌剂、感染原检测、生物冷冻保存、药物输送、新陈代谢和老化以及细菌抗生素耐药性）。沃里克在管理这套独特的设施的哲学已经驱动器的特点，以最大限度地为所有研究人员从本科生教授，这是在大学的研究战略接地的承诺。这是通过将最先进，最先进的设备组织到一系列大学范围的研究技术平台（RTPs）和跨部门设施中来实现的，这些平台可供内部和外部用户使用。这种独特的模式将专家和仪器开发人员与经常或偶尔的最终用户聚集在一起，并已成为化学，工程，生命科学和物理系以及其他一些英国大学和工业合作伙伴的大量非常成功的合作研究计划的起源。该提案旨在维持和扩大对沃里克分析设备基础设施的访问，特别注重支持研究和研究生培训，同时扩大多学科合作和最终用户参与。这将通过投资于研究技术专业人员（RTProfs）来实现，他们是从现有的大量基础设施投资中获得最佳利益的组成部分。他们的存在将代表有效和一致的培训，在最高标准，博士生在中部地区和整个英国的重要资产，并将为他们提供超过480天的种子玉米使用的分析科学仪器在沃里克。RTProfs还将负责展示博士生的可用资金，并通过组织涉及英国大学，学术团体和行业的国家分析科学会议来传播分析科学最佳实践。这项投资的总体愿景是大幅促进英国的分析科学，沃里克在全国范围内发挥着关键作用，是卓越的中心，也是其发展和实践的灯塔。

项目成果

Rapid synthesis of cerium-UiO-66 MOF nanoparticles for photocatalytic dye degradation

快速合成用于光催化染料降解的 Ceium-UiO-66 MOF 纳米颗粒

• DOI: 10.1039/d3dt00890h
• 发表时间: 2023
• 期刊: Dalton Transactions
• 影响因子: 4
• 作者: Ghadim E

Post-polymerisation modification of poly(3-hydroxybutyrate) (PHB) using thiol-ene and phosphine addition

使用硫醇烯和膦加成对聚（3-羟基丁酸酯）（PHB）进行后聚合改性

• DOI: 10.1039/d3py00272a
• 发表时间: 2023
• 期刊: Polymer Chemistry
• 影响因子: 4.6
• 作者: Al-Shok L

Elucidation of microbial lignin degradation pathways using synthetic isotope-labelled lignin.

• DOI: 10.1039/d2cb00173j
• 发表时间: 2023-01-04
• 期刊: RSC CHEMICAL BIOLOGY
• 影响因子: 4.1
• 作者: Alruwaili, Awatif;Rashid, Goran M. M.;Sodre, Victoria;Mason, James;Rehman, Zainab;Menakath, Anjali K.;Cheung, David;Brown, Steven P.;Bugg, Timothy D. H.
• 通讯作者: Bugg, Timothy D. H.

Activation of Al2O3 surface passivation of silicon: Separating bulk and surface effects

硅 Al2O3 表面钝化的活化：分离体效应和表面效应

• DOI: 10.1016/j.apsusc.2023.158786
• 发表时间: 2024
• 期刊: Applied Surface Science
• 影响因子: 6.7
• 作者: Grant N