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未来十年纳米光子学若干重点发展领域 被引量:2
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作者 孙桂林 张利沙 杭凌侠 《物理》 CAS 北大核心 2013年第10期724-732,共9页
纳米光子学已经对人们的日常生活产生了重要影响,并且纳米光子学器件产品有强大的市场需求,因此其研究结果可以很快转化为商品。文章介绍了在未来5到10年内对光子工业有重大影响并且有望进入商品市场的11个纳米光子学领域,其中包括:纳... 纳米光子学已经对人们的日常生活产生了重要影响,并且纳米光子学器件产品有强大的市场需求,因此其研究结果可以很快转化为商品。文章介绍了在未来5到10年内对光子工业有重大影响并且有望进入商品市场的11个纳米光子学领域,其中包括:纳米尺度量子光子学、全光路由、用于增强磁存储的表面等离子体光子学、用于诊断治疗和药物输送纳米光子学、纳米成像、分子尺度上的化学与生物传感器、纳米标签、纳米尺度上操控光场的分布(光伏器件和LED/OLED)、原型试制的新技术、量身定制光学特性的纳米光子材料以及太赫兹技术等,希望文章能对中国的纳米光子学研究及其工业化应用有一定帮助。 展开更多
关键词 纳米光子学 表面等离子体光子学 发光二极管/有机发光二极管 太阳能光伏器件 纳米量子光学 生物光子学 纳米传感 纳米标签 纳米光刻 纳米光子材料 太赫兹光子学
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Aqueous self-assembly and surface-functionalized nanodots for live cell imaging and labeling
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作者 Mei-Lang Kung Pei-Ying Lin +1 位作者 Chiung-Wen Hsieh Shuchen Hsieh 《Nano Research》 SCIE EI CAS CSCD 2014年第8期1164-1176,共13页
Nanoparticles have enormous potential for bioimaging and biolabeling applications, in which conventional organically based fluorescent labels degrade and fail to provide long-term tracking. Thus, the development of ap... Nanoparticles have enormous potential for bioimaging and biolabeling applications, in which conventional organically based fluorescent labels degrade and fail to provide long-term tracking. Thus, the development of approaches to make fluorescent probes water soluble and label cells efficient is desirable for most biological applications. Here, we report on the fabrication and charac- terization of self-assembled nanodots (SANDs) from 3-aminopropyltriethoxysilane (APTES) as a probe for protein labeling. We show that fluorescent SAND probes exhibit both bright photoluminescence and biocompatibility in an aqueous environment. Selective in vitro imaging using protein and carbohydrate labeling of hepatoma cell lines are demonstrated using biocompatible SANDs conjugated with avidin and galactose, respectively. Cytotoxicity tests show that conjugated SAND particles have negligible effects on cell proliferation. Unlike other synthetic systems that require multistep treatments to achieve robust surface functionalization and to develop flexible bioconjugation strategies, our results demonstrate the versatility of this one-step SAND fabrication method for creating multicolor fluorescent probes with the tailored functionalities, effident emission, as well as excellent biocompatibility, required for broad biological use. 展开更多
关键词 atomic force microscop HYDROPHILICITY molecular imaging SELF-ASSEMBLY SILANE
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