纳米晶体,nanocrystal英语短句,例句大全

纳米晶体,nanocrystal
1)nanocrystal纳米晶体
1.Line-shape analysis of electroabsorption spectrum of CdS_(0.1)Se_(0.9) nanocrystals;CdS_(0.1)Se_(0.9)纳米晶体共振电吸收谱的线形分析
2.Synthesis of Nitrogen-Doped Fullercnes, Carbon Nanotubes and Nanocrystals in Nitrogen Atmosphere;氮气氛中合成杂氮球烯、碳纳米管及纳米晶体的研究
3.Molecular Dynamics Simulation for Atomic Structure and Properties of Nanocrystal of Silver;分子动力学模拟纳米晶体银的结构和性能

英文短句/例句

1.The Solvothermal Crystallization of Sulfides Micro/Nanocrystallinites and the Photocatalytic Property;硫化物微纳米晶体的溶剂热结晶及催化性能
2.Grain Growth and Deformation Mechanism in Nanocrystalline Materials;纳米晶体材料中晶粒生长及变形机理的研究
3.Study of Phonon Brillouin Spectrum of Crystal Films纳米晶体颗粒的声子布里渊光谱研究
4.Low Temperature Synthesis of TiC\TiN\TiCN Nanaocrystallites Via Chemical Metathesis Route;化学交换法低温合成TiC\TiN\TiCN纳米晶体
5.Preparation and Application of Organic Nanocrystal Fluorescent Probes;有机纳米晶体荧光探针的制备及应用
6.Synthesis of Gold Nanocrystals and Their Optical Properties;金纳米晶体的制备与光学性质的调控
7.Thermodynamic Phase Stability and Solid Structure Transition of Nanocrystals;纳米晶体的热力学稳定性及结构相变
8.Hydrothermal Synthesis and Characterization of VO_2(B) and Zn_3(OH)_2V_2O_7·nH_2O水热法制备VO_2（B）和Zn_3（OH）_2V_2O_7·nH_2O纳米晶体
9.Preparation and application of WO_3 nano-crystalloidWO_3纳米晶体的制备工艺研究进展
10.Synthesis,structures and luminescence properties of SnO_2 nanoparticlesSnO_2纳米晶体的制备、结构与发光性质
11.Study on the Mechanical Properties of Pure Bulk Al with Nanocrystalline纯Al纳米晶体材料的力学性能研究
12.Amorphous nano-sized SiBONC ceramic powder prepared by a polymer-derived ceramic route先驱体法制备非晶态SiBONC纳米陶瓷粉体
13.Hydrothermal Synthesis of the Mn_xZn_(1-x)O Crystal and the Crystal Sheet of Nano Boehmite;水热法合成Mn_xZn_（1-x）O晶体和纳米薄水铝石晶片
14.Study on the Preparation and Magnetic Properties of Spinel Ferrite Nanocrystallites;尖晶石铁氧体纳米微晶的制备及其磁性能研究
15.The influence on the radiation characteristics of an amorphous nanocluster by introducing photonic crystals光子晶体对非晶纳米团簇辐射特性的影响
16.Review Synthetic Methods of CdSe Semiconductor Nanocrystals;硒化镉（CdSe）半导体纳米晶制备方法评述
17.Micromagnetic Simulation of Demagnetization Curves for Nanocrystalline NdFeB Magnets;纳米晶NdFeB磁体退磁曲线的微磁学研究
18.A Study on the Preparation and Characterization of Ferrite Nanocrystallites;铁氧体纳米微晶的制备及其性能研究

相关短句/例句

nanocrystalline纳米晶体
1.Study on preparation and structural characteristics of ZnFe_2O_4 nanocrystalline;铁酸锌纳米晶体的制备及表面光伏特性研究
2.Electrodeposition of nanocrystalline Fe-Ni-Cr alloy foil in trivalent chromium bath;三价铬镀液中电沉积纳米晶体Fe-Ni-Cr合金箔
3.Synthesis of nanocrystalline nickel by direct current electrodeposition;直流电沉积法制备纳米晶体镍
3)nanocrystals纳米晶体
1.Fabrication and properties of ZnO nanocrystals by laser irradiation under coaxially transporting O_2;ZnO纳米晶体的同轴送氧激光制备及其特性
2.The growth and characteristics of CdSeS nanocrystals in glass;玻璃中CdSeS纳米晶体的生长及其性能
3.Research on low-temperature heat capacity and thermal stabilit of SnO_2 and ZnO nanocrystals;纳米晶体SnO_2、ZnO的低温热容及热稳定性研究
4)nano-crystalline纳米晶体
1.Study on mechanochemistry synthesis for nano-crystalline;机械力化学合成纳米晶体的研究
2.The synthesizing process and mechanism of nano-crystalline BaTiO3 by mechanochemistry that ground the mixture powder of BaO and anatase TiO2 was studied by XRD, TEM and HR- TEM.晶体形成经过成核和生长两个阶段,但生长到一定程度时达到动态平衡,合成的BaTiO3纳米晶体颗粒尺寸为10～30 nm。
3.The nano-crystalline BaTiO3 was successfully synthesized by grinding the mixture of BaO and anatase TiO2 in a high-energy mill in nitrogen atmosphere and its mechanism was also discussed.发现在一定操作参数条件下,粉磨初期为无定形形成期（15h以前）,混合物颗粒粒度减小,晶格畸变,转变为无定形;粉磨中期为固相反应期（15～30h）;BaO与TiO2在机械力的作用下产生固相反应生成BaTiO3,同时BaTiO3晶粒长大;粉磨后期又转入动态平衡期（30h以后）,固相反应基本结束,已生成的BaTiO3的晶粒生长与粉磨引起的晶粒减小处于动态平衡;XRD,SEM;TEM研究表明:合成BaTiO3纳米晶体的晶粒尺寸为10～30nm。
5)nano crystalline纳米晶体
1.This paper introduces the development,structure and the principle of high efficiency dye nano crystalline solar cells,and put for ward some key problems to solve.本文介绍了高效染料纳米晶体太阳能电池的发展、结构和工作原理 ,并在此基础上提出一些今后需要解决的问题。
6)nanopowder纳米晶粉体
1.BaTiO_3 nanopowder was successfully synthesized from alkoxide solution precursor by solgel process.采用金属钡与乙二醇甲醚反应,形成乙二醇甲氧钡,再与钛酸四丁酯按照钡钛比为1∶1的摩尔比配料混合后在130℃回流1h,获得钡钛复合醇盐,然后加入一定量的去离子水,溶液迅速成胶,将湿凝胶陈化—干燥—热处理,成功合成了钛酸钡纳米晶粉体,合成温度低于150℃;且不同的加水量不仅影响凝胶的外观,同样对凝胶的析晶温度和晶体的种类有着重要的影响,当水与溶胶中钡离子的摩尔比为xw≥3时,均可得到纯净的钛酸钡纳米晶粉体。