1) CdS nanowires
CdS纳米线
1.
In this paper,we present the fabrication of CdS nanowires by self-assembling CdS nanoparticles on double-stranded DNA templates.
本文报道了应用DNA双螺旋模版将CdS纳米粒子自组装为CdS纳米线。
2.
The photoluminescence measurements indicate that when excited at 325nm, a strong PL peak at 450nm and a shoulder PL peak at 484nm appear for CdS nanowires arrays.
用直流电沉积法在多孔氧化铝模板中制备了高度有序的CdS纳米线阵列,SEM和XRD的观察和测量表明,CdS纳米线尺寸均匀、排列规整,具有六方纤锌矿结构,Cd和S的化学计量比为1:1。
3.
CdS nanowires and nanobelts were fabricated via a simple one-step thermal evaporation of CdS powder in mass scale under different experimental conditions.
采用直接热蒸发CdS粉末的方法,在不同的生长条件下制备出CdS纳米线和纳米带材料并对其形貌、结构和光学性质进行了研究。
2) CdS/SiO_2 nanowire array
CdS/SiO2纳米线阵列
1.
CdS/SiO_2 nanowire arrays and CdS nanobelts were synthesized by thermal evaporation of CdS and CdO mixture powders,and highly selective etching occurred on the surfaces of silicon substrate.
利用物理热蒸发法蒸发CdS和CdO的混合粉末,Si衬底表面发生了选择性刻蚀,并由此制备出CdS/SiO2纳米线阵列和CdS纳米带。
3) CdS nanocrystal
CdS纳米晶
1.
Synthesis and characterization of functionalized CdS nanocrystals and CdS/PS nanocomposite hybrids;
功能化CdS纳米晶的合成及CdS/聚苯乙烯纳米杂化材料的研究
2.
Synthesis of functionalized CdS nanocrystals;
功能化CdS纳米晶的制备(英文)
3.
Synthesis of CdS nanocrystals by a new method
一种无水无氧制备CdS纳米晶的新方法
4) nanosized CdS
纳米CdS
1.
C_2H_5OH sensing properties of nanosized CdS prepared by coordination-precipitation;
纳米CdS的配位沉淀合成及酒敏性能研究
5) CdS nanorods
CdS纳米棒
1.
TEM images showed that nanocrystals had a narrow size distribution and a controllable aspect ratio(1~7) to some extent,and XRD measurement confirmed the wurtzite structure for the resulting CdS nanorods.
采用水相法在温和的条件下,通过调节反应物的浓度、控制反应平衡,制备了泪滴状和四臂的CdS纳米棒。
2.
Polyvinylpyrrolidone(PVP)-modified CdS nanorods were prepared by a hydrothermal reaction of CdCl_2·2.
用水热合成方法制备了PVP表面修饰CdS纳米棒,用XRD ,TEM ,TG DTA ,IR ,UV Vis,PL等光谱技术进行了表征。
3.
CdS nanorods were synthesized by a soft chemistry method using cadmium nitrateand thioacetamide as starting compounds and DMF as solvent at low temperature(~50℃).
以硝酸镉与硫代乙酰胺为起始物,采用DMF为溶剂,在低温(~50℃)下通过软化学法合成了CdS纳米棒,其直径为7~20nm,长度达500nm。
6) CdS nanorod
CdS纳米棒
1.
The photoconductive properties of composite photoreceptors based on titanophthalocyanine(TiOPc) and CdS nanorods were sytematically investigated with photoinduced discharge technique.
采用以溶剂热方法合成的CdS纳米棒与酞菁氧钛复合制备的复合光导体,在570nm光照下其光电导性能明显提高,将质量分数为5%的CdS纳米棒与TiOPc复合使光敏性能提高32%。
补充资料:赤岗过桥米线
赤岗过桥米线
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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