Inorganic Materials for Transformative Technologies

用于变革性技术的无机材料

• 批准号: RGPIN-2018-04751
• 负责人: Murugesu, Muralee
• 金额: $ 7.65万
• 依托单位: University of Ottawa
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=692886
• 关键词: Inorganic; Materials; Transformative; Technologies

The proposed research program of Inorganic Materials for Transformative Technologies (IMTT), aims at developing new ways to create and implement novel efficient functional materials in different sectors, such as Information and Communications Technology (ICT) and Defence and Security, by leveraging the convergence of several materials-centric cornerstones: magnetics, optics In the ICT focused research, advanced characterization of novel molecular (Nanomagnets) and low-dimensional materials (Quantum Spin Liquids), manipulation at the nanoscale, device development and assessment, as well as quantum theoretical aspects will support the design and synthesis of new materials for low power electronics, increased computing speeds and efficient data storage. *** To protect Canadians and the environment from hazardous chemicals, carefully designed Metal-Organic Frameworks will be developed for safe capture, storage and disposal of highly toxic and explosive materials. This research is ideal for interdisciplinary collaboration between HQP with Department of National Defence and industry to create smart protective materials that will contribute to the wellbeing of Canadians, from environmental and health benefits to security.***Overall, the IMTT research is based on some of the fundamental discoveries and theories that are at the forefront of research today, as evidenced by the 2016 Nobel Prize in Chemistry (Nano-Machines-Smart materials) and in Physics (unusual phases, or states of matter such as superconductivity and magnetism in molecular and low-dimensional materials). This is at the crux of this proposal, which aims to realize these materials for future applications in defense, the internet of things and data storage.

拟议的用于变革技术的无机材料研究计划旨在开发新的方法，通过利用几个以材料为中心的基石的汇聚，在不同部门创造和实现新型高效功能材料，如信息和通信技术(ICT)和国防与安全，信息和通信技术重点研究中的磁学、光学、新型分子(纳米磁网)和低维材料(量子自旋液体)的高级表征、纳米级操纵、器件开发和评估，以及量子理论方面将支持低功耗电子产品、提高计算速度和高效数据存储的新材料的设计和合成。*为了保护加拿大人和环境免受危险化学品的伤害，将开发精心设计的金属-有机框架，以安全捕获、储存和处置剧毒和爆炸性材料。这项研究是HQP与国防部和工业部之间跨学科合作的理想选择，以创造智能保护材料，将有助于加拿大人的福祉，从环境和健康利益到安全。*总的来说，IMTT的研究基于一些基本发现和理论，这些发现和理论处于当今研究的前沿，2016年诺贝尔化学奖(纳米机器-智能材料)和物理学奖(不寻常的相，或分子和低维材料中的超导和磁性等物质状态)证明了这一点。这就是这项提案的关键所在，该提案旨在实现这些材料，用于未来在国防、物联网和数据存储方面的应用。