纳米结构

高压退火磁性非晶合金Nd9Fe（85）B6的纳米结构转变

Nanostructure Transformation of Magnetic Amorphous Alloy Nd_9Fe_ ( 85 ) B_6 under High Pressure

TiO2与ZnO复合纳米结构电极的光电化学研究

Photoelectrochemical Studies on TiO _ 2 - ZnO Composite Nanostructure Electrodes

pH值为9左右，制备出近似的球形核壳纳米结构。

The nanoparticles are of approximately spherical core-shell structure at a pH of about 9 .

ZnO纳米结构比表面积大，缺陷密度高。

ZnO nanostructures have large surface area and high defect density .

~（52）Cr原子光刻制作纳米结构研究

Research on nanostructures fabricated by atom lithography with ~ ( 52 ) Cr

扫描电子显微镜（SEM）图表明反应产物分别为花样和树枝状的银纳米结构。

SEM images indicate the reaction results are flowery and dendritic silver nanostructure .

溶剂热辅助法控制合成ZnO纳米结构及其光学性质研究

Synthesis , Controlling and Photoluminescence Study of ZnO Nanostructures Under Solvothermal-Assisted Heat Treatment

Ti离子注入聚合物纳米结构分析

Analysis of Nano-meter structure in Ti implanted polymers

用原子操纵在Si（111）7×7表面形成规则纳米结构

Regular Nanometer-scale Structures created on St ( 111 ) 7 × 7 Surfaces by Atomic Manipulation

ZnO基半导体&金属异质纳米结构

ZnO Based Semiconductor - Metal Hetero - Nanostructures

ZnO一维纳米结构在金属基底上的原位生长和表征

Synthesis and characterization of one-dimensional ZnO nanostructures directly grown from and on Cu-Zn alloy substrate

钻石状和棒状的ZnO纳米结构都可以用氧化锌晶体的极性生长特性来解释。

Diamond shaped and rod shaped ZnO nanostructures could be interpreted by polar growth model .

MEMS集成应用的纳米结构PZT厚膜形成工艺研究

Study of nano - PZT thick film for MEMS application

过氧化物酶催化的酚类聚合反应能够诱导形成纳米结构SiO2沉淀。

Silica nanospheres were induced by peroxidase-catalyzed phenol polymerization .

制备的ZnO和Zn薄膜将会在后面ZnO纳米结构的生长过程中起到不同的作用。

This ZnO and Zn films will played a different role in the growth process of the ZnO nanostructures .

SPM电场加工纳米结构的评价方法

Evaluation Method of Nanostructure Fabricated by SPM in Electrical Field

最后介绍了我们通过自主创新的方法所合成的一些Ag纳米结构。

In the last of this part , we describe the Ag nanostructures that prepared by our independent innovation method .

Fe3O4磁性纳米结构材料的合成研究

The Synthesis of Fe_3O_4 Magnetic Nano-Structured Materials

用光致发光分析研究了这些ZnO一维纳米结构的光学特性。

The optical properties of these ZnO one-dimensional nanostructures were studied with photoluminescence measurements and found to have strong green light emissions .

OB纳米结构仿生及光学特性研究进展

Research progress on fabrications and optical properties of bionic nanostructures

纳米结构ZrO2的制备及组装机理的研究

The Study on Preparation of Nano-structure Zirconia and Assembly Mechanism

本文主要介绍用SOLGEL法制备具有纳米结构的SiO2、TiO2和ZrO2材料。

Nano structure material SiO 2 , TiO 2 and ZrO 2 is prepared by sol gel method .

而Langmuir单层膜技术则是一种非常有效的制备和组装纳米结构的手段。

Langmuir monolayer technique is a very effective way in preparation and assembly of nanoparticles .

同时对于ZnO纳米结构在场发射、生物传感器、气体传感器和光开关等方面的应用做了探讨。

The applications of these ZnO nanostructures for field emitter , glucose biosensor , gas sensor and ultra-violet ( UV ) switch are investigated .

通过XRD、SEM、TEM、HRTEM分析了所制氧化锌纳米结构的表面形貌和微结构特征。

XRD , SEM , TEM and HRTEM are used to study the morphology and structure characteristics of the ZnO nanostructures .

阳极氧化铝（AnodicAluminumOxide，AAO）模板合成技术是近年来发展起来的纳米结构材料组装的最重要的技术之一。

Technology of preparation of anodic aluminum oxide , AAO template is one of most important technology on assembling nano-structure materials in recent years .

在石墨基底或者含有Au纳米粒子的阳极氧化铝表面，利用热蒸发法生长了不同形貌的不掺杂或Cd掺杂的ZnO一维纳米结构，例如纳米线、纳米带、梳子状、锯齿状等纳米结构。

Using the substrate of graphite sheet or porous alumina template with Au particles on the surface , poly-morphous undoped or Cd-doped ZnO one-dimensional nanostructures were grown .

在不同的基体上，激光直接照射制备SiC纳米结构涂层，分别获得SiC纳米复合涂层，SiC纳米涂层及含网状SiC纳米晶须的涂层；

SiC structural coatings were made via laser irradiation on different substrates including nano-SiC composite coatings , nano-SiC coatings and nano-SiC coatings with the networked SiC nano-whiskers .

研究了铜铬氧化物前驱体铬酸铜铵（CAC）的热解条件对纳米结构催化剂中CC晶粒尺寸的影响。

It was studied that the effect of pyrolytic conditions of copper ammonium chromate precursor on the particle size of CC in ns-CC .

扫描电镜和透射电镜的观察表明MgO枝状纳米结构是由很多粗的MgO棒上长出了很多细的MgO纳米线的结构组成。

Scanning electron microscopy and transmission electron microscopy characterizations show that the MgO branched nanostructures consist of many slim nanowires grown from the thick MgO rods .