1) Ag NWs
纯银纳米线
2) Ag nanowire
银纳米线
1.
In the present study,various Ag cov-erages and post-annealing temperatures had been tested to fabricate Ag nanowires with high as-pect ratio.
本研究试用不同的银覆盖度和退火温度制作高纵横比的银纳米线。
3) silver nanowire
银纳米线
1.
The results show that the prepared silver nanowire had face-centered cubic structure.
采用水热方法,以AgC l为银引入源,葡萄糖作为还原剂,合成了一维银纳米棒以及银的纳米线结构,用XRD、SEM对产物进行了表征,发现所制备的银纳米线具有面心立方结构、直径约100nm、长约数十微米。
4) Ag nanowires
银纳米线
1.
A three-dimensional molecular dynamics simulation method and Finnis-Sinclair embedded atom potential were utilized to study the potential energy distribution characteristic of an fcc Ag nanowires at room temperature and its changes during heating,by which we get the ratio and function of the potential energy distribution of Ag nanowires at different temperatures.
采用三维分子动力学模拟方法,以面心立方金属银为研究对象,基于Finnis-Sinclair型嵌入原子法(EAM)多体势,模拟研究了纳米线势能分布特征在常温下及其在不同温度直到熔化过程中的变化,给出了常温及不同温度银纳米线势能分布比例和势能分布函数。
5) Silver nanowires
银纳米线
1.
Silver nanowires were produced in the etched ion-track membranes by electrochemical deposition.
以带有核径迹孔的PC膜为模板,用电化学沉积法制备出不同直径的银纳米线。
2.
The obtained silver nanowires were of high aspect ratios, with an average diameter of ~30 nm and length up to 50 μm.
以季铵盐型阳离子Gemini表面活性剂[C16H33(CH3)2N+(CH2)3N+(CH3)2C16H33]-2Br-(16-3-16)为结构导向剂和稳定剂,以六次甲基四胺为还原剂,用水热合成法由硝酸银制备了直径约30nm、长约50μm的银纳米线。
3.
This research describes preparatio n of silver nanowires by a soft-chemistry approach and discusses the growth mecha nism.
以AgNO3 为起始物 ,采用DMF为溶剂和还原剂 ,无须采用晶种 ,在低温 (~ 70℃ )下AgNO3 经DMF还原 ,通过软化学法合成了结构均匀的银纳米线 ,其直径为 15~ 3 0nm ,长度高达 2 0 μm 。
6) Ag NPs
纯银纳米粒子
补充资料:纯银
1.纯净不含杂质的银。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条