Nano Today ( IF 13.2 ) Pub Date : 2023-06-30 , DOI: 10.1016/j.nantod.2023.101923 Verónica I. Dumit , Ammar Ammar , Martine I. Bakker , Miguel A. Bañares , Cecilia Bossa , Anna Costa , Hilary Cowie , Damjana Drobne , Thomas E. Exner , Lucian Farcal , Steffi Friedrichs , Irini Furxhi , Roland Grafström , Andrea Haase , Martin Himly , Nina Jeliazkova , Iseult Lynch , Dieter Maier , Cornelle W. Noorlander , Hyun Kil Shin , Galo J.A.A. Soler-Illia , Blanca Suarez-Merino , Egon Willighagen , Penny Nymark
Developing safe and sustainable nanomaterials-based solutions to current global challenges including clean energy, sustainable food production and water security requires access to high quality data and appropriate analysis and modelling approaches. Achieving these challenges requires increased re-use of research data to accelerate progress and support development of new materials that are safe and sustainable for energy capture and storage, nano-agriculture and environmental remediation. The principles of Findability, Accessibility, Interoperability and Reusability (FAIR) provide a roadmap to enhanced data sharing and re-use, but require consensus within the nanosafety community on metadata, ontologies and persistent identifiers (among other things) and guidance to support implementation and achieve machine-readability. Here, we highlight the main focus of the AdvancedNano GO FAIR Implementation Network in supporting the nanosafety community with implementation of FAIR to maximize data-driven safe and sustainable application of nano- and advanced materials.
中文翻译:
从原则到现实。纳米安全社区中的公平实施
针对当前的全球挑战(包括清洁能源、可持续粮食生产和水安全)开发基于安全和可持续纳米材料的解决方案需要获得高质量的数据以及适当的分析和建模方法。应对这些挑战需要更多地重复利用研究数据,以加快进展并支持新材料的开发,这些新材料对于能源捕获和存储、纳米农业和环境修复来说是安全且可持续的。可查找性、可访问性、互操作性和可重用性 (FAIR) 原则提供了增强数据共享和重用的路线图,但需要纳米安全社区内就元数据、本体和持久标识符(除其他外)以及支持实施和支持的指导达成共识。实现机器可读性。这里,