陈志凌博客分享 http://blog.sciencenet.cn/u/chihlchen 研究激光四维动漫显微电化学问题,探索等离子激光应用。

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莲花表面仿生智造自洁净玻璃的激光电化学方法

已有 4988 次阅读 2010-12-18 03:08 |个人分类:激光电化学|系统分类:科研笔记| 莲花表面形貌, 仿生光电化学智造, 自洁净玻璃

莲花表面仿生智造自洁净玻璃的激光电化学方法 (1)将具有表面自洁净效应的新鲜莲花,置于恒温恒湿的低真空保鲜透明腔体内保鲜,为后续的科学实验提供原始参照物。(2)用光学干涉显微镜获得莲花的表面形貌图形,包括毫米尺度、微米尺度、纳米尺度等多尺度的复合图形。(3)用电子束曝光机智造莲花表面形貌仿生的一次掩模板。(4)将一次模板安装在纳米压印机,模压出不锈钢板的二次掩模板。(5)二次掩模板再装在激光微加工设备上,投影加工,即可获得自洁净玻璃,如:自洁净玻璃幕墙,自洁净眼镜,自洁净光学镜片;这些物件一般不容易污染,即便污染后,只要用水冲洗,或用一定压力的空气喷射,即可达到自洁净的目的。 主要参考文献: [1] 书名:Nanoscale Photonics and Optoelectronics 作者:Wang, Zhiming M.; Neogi, Arup (Eds.) 出版社:Springer ISBN: 978-1-4419-7233-0 1st Edition., 2011, XI, 300 p. 135 illus., 41 in color., Hardcover About this book: The intersection of nanostructured materials with photonics and electronics shows great potential for clinical diagnostics, sensors, ultrafast telecommunication devices, and a new generation of compact and fast computers. Nanophotonics draws upon cross-disciplinary expertise from physics, materials science, chemistry, electrical engineering, biology, and medicine to create novel technologies to meet a variety of challenges. This is the first book to focus on novel materials and techniques relevant to the burgeoning area of nanoscale photonics and optoelectronics, including novel, hybrid materials with multifunctional capabilities and recent progress in the understanding of optical interactions in nanoscale materials and quantum-confined objects. Leading experts provide a fundamental understanding of photonics and the related science and technology of plasmonics, polaritons, quantum dots for nanophotonics, nanoscale field emitters, near-field optics, nanophotonic architecture, and nanobiophotonic materials. Key Features: <1> Provides a comprehensive review of the fundamental knowledge of nanometer-scale light-matter interactions with emphasis on new principles and technologies <2> Describes applications to photonics, bioengineering, nanofabrication, information technology, and communications <3> Bridges between electronics and photonics by including novel hybrid materials with multifunctional capabilities [2] 半导体光电化学 中文译本,由俄语原版翻译的英文版,华中科技大学图书馆均有藏书。

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