1·Gold nanorods (GNRs) have unique optical characteristics.
纳米金棒具有独特的光学特性。
2·To some extent, more cyclohexane results in longer nanorods.
在一定范围内,环己烷的量越多,所获得的纳米棒越长。
3·The Co nanorods showed narrow size distribution and no agglomeration in hexane.
在正己烷中基本无团聚,呈现单分散,形态均一,粒径分布窄。
4·The increase in rate of reaction decreases the uniformity and regularity of nanorods.
化学反应速度的提高显著降低了纳米棒的均匀度和规则性。
5·The only downside that Lin and his team have found so far is that the nanorods can be fragile.
林教授和他的小组迄今发现的唯一缺点是:纳米棒比较易碎。
6·left : the fluorescence image of Salmonella sample treated by heterostructured nanorods with antibodies.
左图:用异质结构的附着抗体的纳米棒,处理的沙门氏菌显现出荧光的图片。
7·The result is as follows:Synthesis of magnetite nanorods with PEG as template under hydrothermal condition.
具体结果如下:以聚乙二醇为模板,在水热条件下了合成四氧化三铁纳米棒。
8·Large area self-organized oriented array of the nanorods was obtained under specific experimental conditions.
在特定的反应条件下,这些纳米棒自发聚集成大面积的取向阵列。
9·When light waves were projected onto the disc, the direction of the electric field within the waves aligned with the gold nanorods.
当光波被投射到光盘上时,光波内电场的方向会与金纳米棒相一致。
10·Quantum dots, mesoporous silica nanoparticles and gold nanorods are novel nanoparticles with excellent optical characteristics.
量子点、多孔二氧化硅纳米颗粒、纳米金棒是具有优良光学特性的新型纳米颗粒。