NSF-Europe Materials Collaboration: Periodic Arrays of Long Semiconductor and Metal Nanowires Embedded in a Silica Fiber for Optoelectronics

NSF-欧洲材料合作：嵌入石英光纤中的长半导体和金属纳米线周期性阵列，用于光电子学

• 批准号: 0502906
• 负责人: John Badding
• 金额: --
• 依托单位: Pennsylvania State Univ University Park
• 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: 2005-06-01 至 2010-05-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0502906&HistoricalAwards=false
• 关键词: NSF; Europe; Materials; Collaboration; Periodic

This MWN (Materials World Network) project is a joint research and education activity between Penn St. U. and the U. Southhampton which aims for greater understanding and implementation of high-pressure synthesis techniques for filling semiconductors and metals inside micro- and nano- scale holes of a microstructured optical fiber over extremely long lengths. Fundamentals of the materials synthesis, characterization, and properties are key research areas to be addressed utilizing confined capillary geometries with characterization of structural, electrical, electronic, optical, and plasmonic properties, along with exploration of key optoelectronic applications. Of these research areas, the materials synthesis, structural and optical characterization, will be the focus of the Penn State team, and the electrical, electronic, plasmonic properties, and device development will be the focus of the U. Southampton team. %%% The project addresses fundamental research issues associated with electronic and photonic materials having technological relevance. An important feature of the project is the strong emphasis on education, with emphasis on integration of research and education, and an international collaboration providing both scientific and educational benefits. These include: interdisciplinary and international research opportunities; integrated research and education. Additionally, unique educational modules in the areas of photonic materials and phase behavior will be developed, expanding undergraduate research and international opportunities, fostering diversity, and disseminating undergraduate modules and research results via the PSU/Southampton Worldwide University Network.

这个MWN（材料世界网络）项目是一个联合研究和教育活动之间的宾夕法尼亚州立大学。和联合Southhampton，旨在更好地理解和实施高压合成技术，用于在极长长度的微结构光纤的微米和纳米级孔内填充半导体和金属。材料合成、表征和性质的基础是利用受限毛细管几何结构进行结构、电学、电子、光学和等离子体性质表征的关键研究领域，沿着关键光电应用的探索。在这些研究领域中，材料合成、结构和光学表征将是宾夕法尼亚州立大学团队的重点，而电学、电子、等离子体特性和器件开发将是美国国家科学院的重点。南安普顿队。该项目解决了与电子和光子材料相关的基础研究问题，具有技术相关性。该项目的一个重要特点是高度重视教育，强调研究和教育的一体化，以及提供科学和教育效益的国际合作。这些包括：跨学科和国际研究机会;综合研究和教育。此外，在光子材料和相行为领域的独特的教育模块将开发，扩大本科研究和国际机会，促进多样性，并通过PSU/南安普顿全球大学网络传播本科模块和研究成果。