3) ZnSe nanorods
ZnSe纳米棒
1.
ZnSe nanorods and ZnSe spheres were prepared with hydrothermal method,the products were characterized with XRD,TGA-DTA,SEM,the possible formation mechanism involving a co-growth process is proposed.
采用水热法制备了ZnSe纳米棒和微球,用XRD,TGA-DTA和SEM等技术对其进行了表征,提出了解释ZnSe微球的形成新机理。
2.
Humidity sensors based on ZnSe nanorods were fabricated.
本文第一个在不加任何有机分散剂情况下,采用复合碱媒介法(CHM)制备出ZnSe纳米棒。
4) ZnSe nanoribbons
ZnSe纳米带
1.
Structural stability of ZnSe nanoribbons was analyzed by means of high-pressure in situ angular dispersive X-ray diffraction(ADXD).
利用高压原位角散X射线衍射实验研究了ZnSe纳米带的结构稳定性。
5) nanoparticle
纳米粒子
1.
Layer-by-layer Assembly Nanoparticle Film Based on Non-covalent Force;
基于非共价键作用力的纳米粒子层层组装薄膜
2.
Hydrothermal synthesis and characterization of rare earth compound nanoparticles and nanorods;
稀土化合物纳米粒子和纳米棒的水热合成和表征
3.
Latest researches in preparation of transition metal sulfides nanoparticles;
过渡金属硫化物纳米粒子制备技术研究进展
6) nano-particle
纳米粒子
1.
Research advances in modification of epoxy resin by nano-particle;
纳米粒子改性环氧树脂的研究进展
2.
Research on Surface Modification of Nano-Particles;
纳米粒子表面改性的研究进展
3.
The Optimization of Ni-P Electroless Composite Plating with Si_3N_4 Nano-particles and the Characterization of the Coating Properties;
Ni-P-Si_3N_4纳米粒子化学复合镀工艺优化及镀层性能表征
补充资料:hot-pressed polycrystalline zinc selenide ceramics ZnSe
分子式:
CAS号:
性质:一种红外光学陶瓷。密度5.27g/cm3。热膨胀系数7.7×10-6℃-1。不溶于水。折射率很高,在5μm波长处为2.4,红外透过波段较宽,为1~21μm。采用热压烧结法制备。用于红外透过窗、红外激光雷达密封罩等。
CAS号:
性质:一种红外光学陶瓷。密度5.27g/cm3。热膨胀系数7.7×10-6℃-1。不溶于水。折射率很高,在5μm波长处为2.4,红外透过波段较宽,为1~21μm。采用热压烧结法制备。用于红外透过窗、红外激光雷达密封罩等。
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