Fabrication and Magnetism of Coordinate Covalent Networks Assembled at Interfaces

界面处组装的坐标共价网络的制造和磁性

• 批准号: 0453362
• 负责人: Daniel Talham
• 金额: $ 37.5万
• 依托单位: University of Florida
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2005
• 资助国家: 美国
• 起止时间: 2005-04-01 至 2009-03-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0453362&HistoricalAwards=false
• 关键词: Fabrication; Magnetism; Coordinate; Covalent; Networks

This research project explores methods to synthesize magnetic nanoscale objects directly on surfaces. Synthesizing and organizing magnetic materials directly where they are needed is the most efficient way to produce nanoscale magnetic films. These investigations are used to educate the next generation of materials chemists and to prepare them to be competitive in materials chemistry related high-technology professions. Ph.D. students are trained in cutting edge synthetic methods and use of state of the art fabrication, analysis and measurement equipment, including facilities at the National High Magnetic Field Laboratory and the Advanced Photon Source. Undergraduate students are exposed to the same exciting technology as they prepare for scientific careers. The research will be used as the basis of a series of web-based tutorials on chemical routes to thin films. %%%Many of the promised applications of molecule-based nanostructures will require positioning structures at interfaces. An attractive alternative to the multistep process of synthesis-isolation-deposition is to fabricate nanoscale objects directly at the site of use. Magnetic information storage is a billion dollar industry that will ultimately benefit from procedures to fabricate thin films of nanoscale objects. This project aims to train the next generation of materials chemists and to prepare them to be competitive in related high-technology professions. Ph.D. students are trained in cutting edge synthetic methods and use of state of the art fabrication, analysis and measurement equipment, including facilities at the National High Magnetic Field Laboratory and the Advanced Photon Source. The research will be used as the basis of a series of web-based tutorials on chemical routes to thin films.

该研究项目探索直接在表面上合成磁性纳米物体的方法。直接在需要的地方合成和组织磁性材料是生产纳米磁性薄膜的最有效方法。 这些研究用于教育下一代材料化学家，并使他们在材料化学相关的高科技专业中具有竞争力。 博士学生接受尖端合成方法和使用最先进的制造，分析和测量设备的培训，包括国家高磁场实验室和先进光子源的设施。 本科生接触到同样令人兴奋的技术，因为他们为科学事业做准备。 这项研究将被用作一系列基于网络的薄膜化学路线教程的基础。 基于分子的纳米结构的许多有希望的应用将需要在界面处定位结构。 合成-分离-沉积多步骤工艺的一个有吸引力的替代方案是直接在使用现场制造纳米级物体。 磁信息存储是一个价值数十亿美元的产业，它最终将受益于制造纳米级物体薄膜的过程。 该项目旨在培养下一代材料化学家，并使他们在相关的高科技行业中具有竞争力。 博士学生接受尖端合成方法和使用最先进的制造，分析和测量设备的培训，包括国家高磁场实验室和先进光子源的设施。该研究将用作一系列关于薄膜化学路线的网络教程的基础。