湿化学方法

我们用简单的湿化学方法制备了纳米WO3和CeO2粉末。

Anometer tungsten trioxide powders were prepared by a wet chemical method .

本文采用湿化学方法以碳纳米管为模板分别将FeCo合金纳米粒子填充碳纳米管和包覆碳纳米管，制备了组成可调、尺寸可控和单分散的FeCo合金纳米粒子负载碳纳米管的一维复合材料；

In this paper , FeCo alloy nanoparticles were filled in and coated on carbon nanotubes using carbon nanotubes as templates via wet chemical method .

无铅型复合钙钛矿材料性能主要由不同的A或B位离子复合决定，并通过采用湿化学方法得到改善。

The properties of lead free perovskite materials are mainly controlled by ions in A or B sites , and can be modified by wet-chemical synthesis .

对目前常用的几种制备PZT超细粉体的湿化学方法作了较详细的综述。

The common wet chemical ways to prepare PZT ceramics were summarized .

湿化学方法可以制备多相磷酸钙，可通过pH值、钙磷比和煅烧温度控制多相磷酸钙的相组成。

The multiphasic calcium phosphate could be prepared by wet chemistry with controlling of pH , Ca / P , and sintering temperature .

用一种廉价的湿化学方法，在NiYSZ阳极基膜上制备出致密的yttriastabilizedzirconia（YSZ）薄膜。

By using a cost_effective wet process , dense yttria stabilized zirconia ( YSZ ) films on Ni_YSZ anode substrates have been prepared successfully .

以硫酸铜和氢氧化钠为原料，氨水为纳米颗粒粒径控制剂，通过湿化学方法合成了20～30nm纳米氢氧化铜棒状原药。

Nano-copper hydroxide precursors with the diameter of 20 to 30 nm have been synthesized by means of wet-chemical way , using cupric sulphate and sodium hydroxide as reactant , ammonia as controlling reagent , respectively .

该文用湿化学方法和质量分析精确测定了Tl-Ba-Ca-Cu-O样品中Tl和O的含量及其结构式，计算了样品中Cu的平均价态及铜氧层中有效空穴浓度。

A wet chemical method has been applied to several T1-based superconductors to determine the Thallium and Oxygen contents . The mean copper valence and hole Concentration ( P ) per pyramidal Cu-O sheet can be calculated from these results . COPPER Within the layer the copper ?

采用改进的湿化学方法提纯多壁碳纳米管。

Multi-walled carbon nanotubes are purified by an improved wet-chemical method .

湿化学方法合成及应用

Compositing by Wet - chemical Method and Its Application

提出了一种新的从硫化银直接制备金属银的湿化学方法。

A new wet-chemical method for producing metallic silver directly from silver sulfide was proposed .

本文综述了化学沉淀法、溶胶-凝胶法和微乳法等三种湿化学方法在制备超细二氧化硅纳米材料方面的应用。

The review introduces three by chemical precipitation process , sol-gol method and reversed microemulsion method .

采用湿化学方法，探索出不同尺寸氟化物纳米粒子及其包壳的制备工艺，制备出可控尺寸和形貌的氟化物纳米材料和核壳结构的氟化物纳米材料。

Size - and morphology-controllable fluoride nanocrystals and core / shell fluoride nanocrystals were prepared by wet chemical methods .

对湿化学方法处理过的高岭土作不同温度焙烧得不同样品。

We used different temperature to roast the kaolin which have been treated with wet chemistry to get different specimens .

该方法比目前报道的醇盐系湿化学方法具有更实用、更优越的性质。

The citrate sol-gel method is more practical and ascendant than the wet-chemical method used to the alcohol salt system reported in present literature .

该方法工艺简单、成本低，可以实现规模化生产，特别需要指出的是该方法不同于一般的湿化学方法，因为无需添加沉淀剂因而产品纯度很高。

Since no precipitation reagent was added , the purity of ZnO nanoparticles prepared by this method is super to that of ZnO nanoparticles prepared by other liquid chemical method .

软磁铁氧体纳米粉（晶）的制备主要采用共沉淀法、溶胶－凝胶法、水热法、微乳液法等湿化学方法。

The preparation of nano sized soft magnetic ferrite powder mainly includes such wet chemical methods as coprecipitation method , sol gel method , hydrothermal method and microemulsion method , etc.

本文采用电沉积和湿化学方法制备了不同形貌的Cu20微纳米结构，并探讨了其形成机理。

In this paper , different morphologies of Cu2O were prepared by electrodeposition and wet chemical method , and the formation mechanisms of Cu2O particles were proposed on the basis of the experimental results .

同时提出在位分散法纳米粒子改性涂料的制备技术：直接在涂料中引入采用湿化学方法制备的纳米粒子溶胶，而不是采用外加经过过滤和烧结等工艺制备的纳米粉体。

Through this method , we made use of the technology of the wet chemical method and added the precursor of nanoparticle during the preparation of coatings . Meanwhile , the nanoparticle was formed on the face of the pigment .

该相变前后所联系的氧含量变化恰好为湿化学方法给出的结果。对湿化学方法处理过的高岭土作不同温度焙烧得不同样品。

The variation in the oxygen content before and after the phase transition just matches the δ value obtained by titration . We used different temperature to roast the kaolin which have been treated with wet chemistry to get different specimens .

论文概括了无机纳米材料的各种制备技术，尤其着重介绍了湿化学方法制备纳米材料方面的最新进展，总结评述了当前无机纳米材料改性聚合物各种制备技术发展的现状及其问题。

In this thesis , we made a summary of the preparation technology of the nano-materials , especially of the latest development of preparing nano-materials by the way of the wet chemical method . The preparation methods of the nanocomposite materials were summarized too .

介绍了几种汞测量分析方法，其中OntarioHydro方法目前被认为是湿化学分析方法中测量汞形态分布最有效的方法之一。

The advantage and the disadvantage of several mercury measurement methods were discussed . Ontario Hydro method is recommended by EPA as a suitable method for measuring mercury speciation in flue gas .

湿化学合成方法被证明是完成这一使命的非常重要的途径。

Wet chemistry method proved to be a great way to reach the goal .

通过选择适当的工艺方法，如掺杂、湿化学合成方法等，实现陶瓷结构的致密、均匀，从而提高陶瓷体的微波性能。

When the suitable process of synthesizes and sintering is selected , the compact homogeneous ceramics such as doping or wet chemical synthesize can be achieved , and the microwave dielectric performances can be improved .

以MnO2为锰源，采用机械活化与湿化学集成的方法首次在水溶液中合成了尖晶石锂锰氧化物。

Spinel LiMn_2O_4 was synthesized for the first time in aqueous solution by wet chemistry integrated with mechanical activation . The Li-rich spinel lithium manganese oxide with doping cobalt was prepared by wet chemistry method .

本文采用溶剂热/水热以及低温湿化学等合成方法，以Pb（CH3COO）2·3H2O和Te粉等为反应前驱体，合成了纯PbTe粉末以及Ag、Sb掺杂PbTe基粉末。

In the present work , PbTe powders and Ag / Sb doped PbTe based powders have been synthesized using Pb ( CH_3COO ) _2 · 3H_2O and Te powder as the precursors via solvothermal route , hydrothermal route and low temperature aqueous chemical route .

近年来，纳米氧化物的湿化学制备方法引起了人们的关注，进行了大量的有益的探索，其中主要有固相法、气相法和液相法。

Recently , the wet chemical method for the preparation of nano metal oxide powders has attacted considerable interests and there are innumerous efforts about them .

水质光谱定量分析技术相比较于传统基于湿化学原理的检测方法，是一种具有快速有效、灵敏度高、无二次污染、操作简单等优点的绿色检测技术。

Comparing with traditional detection methods based on wet chemical principle , spectrometry is a kind of fast , effective , high-sensitivity , no secondary pollution , simple operation and other advantages green detecting technology .