Collaboration and Service

协作与服务

• 批准号: 10217182
• 负责人: Joanna R Long
• 金额: $ 12.67万
• 依托单位: FLORIDA STATE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-08-01 至 2023-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10217182
• 关键词: Advertising; Area; Automobile Driving; Biomedical Research; Canada; Collaborations; Communities; Data; Data Collection; Development; Documentation; Education; Educational workshop; Experimental Designs; Feedback; Goals; Home; Human Resources; Hybrids; Individual; Infrastructure; Institution; Licensing; Mentors; Nuclear; Performance; Play; Postdoctoral Fellow; Publications; Recording of previous events; Recruitment Activity; Research; Research Personnel; Research Project Grants; Resolution; Resources; Role; Running; Sampling; Series; Services; Student recruitment; Students; Support System; Technology; Training; Translating; United States National Institutes of Health; Vision; Work; base; c new; career; expectation; experimental study; graduate student; improved; instrumentation; new technology; next generation; outreach; programs; recruit; symposium; web site

Collaboration and Service Project Summary/Abstract We have identified nineteen collaboration and service projects for the National Resource for Advanced NMR Technology BTRR. This set of projects encompasses an impressive portfolio of projects supported by the NIH. They also have the resources needed at their home institutions to make challenging and biomedically relevant samples and to gather preliminary data to inform the experiments they will undertake in our facility. Equally important, these projects will benefit from unique technologies developed in each of the TR&D projects. Many of the projects will use capabilities developed in two, or even three, of the TR&D areas. The projects are all distinguished by a clear need for improved sensitivity and resolution beyond what conventional NMR instru- mentation can provide. All the C&S PIs have a well-defined vision for what they can accomplish as the ultrasensitive cryoprobes (TR&D1), dynamic nuclear polarization technologies (TR&D2), and capabilities for the series connected hybrid (SCH) magnet (TR&D3) are made available through our user program. In support of the C&S projects we have three specific aims for the BTRR: 1) assist users in utilizing new technology developed through the BTRR; 2) develop and refine technology through active engagement with the user community; 3) broaden the user base through outreach and active recruitment of new users. C&S projects were selected to provide broad coverage of biomedical research areas which can benefit from our BTRR. In addition, many of them are already actively engaged users of our facilities, which gives us great confidence they will truly fill the role intended for C&S projects.

协作和服务 项目摘要/摘要 我们已经确定了为高级NMR国家资源的19个协作和服务项目 技术BTRR。这组项目涵盖了NIH支持的令人印象深刻的项目组合。 他们还拥有所需的资源，以使具有挑战性和生物医学相关 示例并收集初步数据，以告知他们将在我们的设施中进行的实验。同样 重要的是，这些项目将受益于每个TR＆D项目中开发的独特技术。许多 其中的项目将使用在TR＆D领域的两个甚至三个区域中开发的功能。这些项目都是 以明确的需求提高灵敏度和解决方案的区别，超出了传统的NMR仪器 精神可以提供。所有的C＆S PI都有明确的愿景 超敏感的冷冻探针（TR＆D1），动态核极化技术（TR＆D2）和功能 系列连接的混合动力（SCH）磁铁（TR＆D3）可通过我们的用户程序提供。支持 在C＆S项目中，我们有三个针对BTRR的特定目标：1）帮助用户利用新技术 通过BTRR开发； 2）通过与用户积极参与来开发和完善技术 社区; 3）通过推广和积极招募新用户扩大用户群。 C＆S项目 被选为提供可以从我们的BTRR中受益的生物医学研究领域的广泛覆盖。在 此外，其中许多已经是我们设施的积极参与的用户，这给了我们极大的信心 他们将真正填补针对C＆S项目的角色。