2020 Crystal Engineering GRC/GRS: Inspired Design, Assembly and Properties of Molecular Materials

2020 晶体工程 GRC/GRS：分子材料的灵感设计、组装和性能

• 批准号: 2021638
• 负责人: Jennifer Swift
• 金额: $ 1万
• 依托单位: Gordon Research Conferences
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-04-01 至 2023-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2021638&HistoricalAwards=false
• 关键词: 2020; Crystal; Engineering; GRC; GRS

PART 1: NON-TECHNICAL SUMMARYCrystalline materials play many important roles in society ranging from medicine to energy storage, and waste remediation to sustainability. The development of new materials to meet 21st Century needs requires the contribution of scientists with diverse backgrounds including chemistry, physics, materials science, computer science and engineering. The Gordon Research Conference on Crystal Engineering (GRC-CE) will bring together leading and emerging scientists in the crystal engineering field where the presentation and discussion of the latest research can serve to both define and align with the materials challenges of the future. The conference format is designed to encourage significant interactions between established and younger participants, which is critical to facilitating the open exchange of ideas, stimulating collaboration, and developing the next generation of talent. With support from the Solid State and Materials Chemistry and Condensed Matter Physics programs within the Division of Materials Research, registration fee and/or travel support will be provided for younger participants, including students, postdoctoral associates and junior faculty.PART 2: TECHNICAL SUMMARYKnowledge and understanding in crystal engineering is needed to develop the advanced materials needs of the 21st century. The 2020 GRC-CE, themed “Inspired Design, Assembly and Properties of Molecular Materials,” will highlight the breadth of the crystal engineering field as it spans fundamental topics of crystal design and assembly to opportunities for commercialization. The conference program includes leading experts who bring a variety of perspectives (e.g. academia, national laboratories and industry) to encourage new multidisciplinary ways of thinking across scientific fields. As with past GRC-CEs, ensuring diversity will be a top priority, particularly with respect to the inclusion of women and other underrepresented groups. The associated Gordon Research Seminar, themed “Engineering Crystals in the Fourth Dimension: Monitoring of Structural Changes in Crystals,” provides a forum for graduate students, post-doctoral associates, and other scientists with comparable levels of experience and education to present their results and engage in meaningful scientific discussions and professional development. With support from the Solid State and Materials Chemistry and Condensed Matter Physics programs within the Division of Materials Research, the GRC-CE will gather leading experts in the major and emerging areas of crystal engineering. A high level of interaction among established scientists and the next generation of researchers will help to enhance the exchange of ideas within the crystal engineering community and to develop the next generation of talent.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

第一部分：非技术概述晶体材料在社会中发挥着许多重要作用，从医学到能源储存，从废物处理到可持续发展。 开发新材料以满足21世纪的需求需要具有不同背景的科学家的贡献，包括化学，物理，材料科学，计算机科学和工程。 戈登晶体工程研究会议（GRC-CE）将汇集晶体工程领域的领先和新兴科学家，对最新研究的介绍和讨论可以帮助定义和应对未来的材料挑战。 会议形式旨在鼓励成熟和年轻参与者之间的重要互动，这对于促进思想的开放交流，促进合作和培养下一代人才至关重要。 在材料研究部的固体和材料化学和凝聚态物理计划的支持下，将为年轻的参与者提供注册费和/或旅行支持，包括学生，博士后助理和初级教师。第2部分：技术总结晶体工程的知识和理解是需要开发21世纪世纪的先进材料需求。 2020年GRC-CE主题为“分子材料的灵感设计，组装和特性”，将突出晶体工程领域的广度，因为它涵盖了晶体设计和组装的基本主题，以及商业化的机会。 会议计划包括领先的专家，他们带来了各种观点（例如学术界，国家实验室和工业界），以鼓励跨科学领域的新的多学科思维方式。 与过去的GRC-CE一样，确保多样性将是一个首要任务，特别是在纳入妇女和其他代表性不足的群体方面。 相关的戈登研究研讨会，主题为“第四维工程晶体：晶体结构变化的监测”，为研究生，博士后助理和其他具有可比经验和教育水平的科学家提供了一个论坛，以展示他们的成果，并参与有意义的科学讨论和专业发展。 在材料研究部内的固态和材料化学以及凝聚态物理学项目的支持下，GRC-CE将聚集晶体工程主要和新兴领域的领先专家。 科学家和下一代研究人员之间的高水平互动将有助于加强晶体工程界的思想交流，并培养下一代人才。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。

项目成果

Time-Resolved Cooperative Motions in the Solid-State Dehydration of Thymine Hydrate

• DOI: 10.1021/acs.cgd.0c01210
• 发表时间: 2020-11
• 期刊: Crystal Growth & Design
• 影响因子: 3.8
• 作者: Taylor A. Watts;Elizabeth K. Miehls;J. Swift