The researchers began by making samples of one or two monolayers of PbSe quantum dots deposited on flat single-crystalline TiO2.
研究人员首先在单晶体 TiO2平面上制作一层或两层的单分子硒化铅量子点。
All films show the polycrystalline anatase TiO2 structure.
薄膜均为多晶锐钛矿结构。
Ingredients: VE, houndfish alkyl, aloe extract, silicon-treated TIO2.
主要成分:维生素e、角鲨烷、芦荟精华、硅处理TIO2。
The results showed that the as-deposited films were amorphous TiO2 film.
分析结果表明,室温下沉积得到的薄膜为非晶态。
The author also proposed the research topics in the future for nm TiO2 pigment.
提出了当前及今后纳米二氧化钛的研究方向。
The nanocrystalline TiO2 film is sensitized by dyestuff with dip and absorption.
采用浸渍吸附法对纳米晶二氧化钛薄膜进行染料敏化。
The special properties and possible application pathways of nanometer TiO2 were reviewed.
就纳米材料的特殊性质及其在各个领域的可能应用作了综述。
The crystallinity and storage modulus of samples increased with the nano-TiO2 content increasing.
随着纳米氧化钛含量的增加, 材料的结晶度和贮能模量增加。
TiO2 was chosen because it is readily available as single crystals and can accept electrons easily.
TiO2因为是容易获取的单晶体并有易吸收电子的特性而被选中。
In this paper, the photocatalytic TiO2 thin film for treating phenol solution translate is studied.
主要研究了用二氧化钛薄膜在光催化下对苯酚溶液进行转化。
Table 2 and Fig. 3 show the influences of particle size and contents of PEG on morphology of TiO2 film.
表2和图。3显示的影响粒子的大小和内容,便挂形态的二氧化钛薄膜。
The results showed that both PTFE and nano-TiO2 in coatings could impede the adhesion of Marine bacteria.
结果表明,PTFE和锐钛型纳米二氧化钛均对海洋细菌的附着有抑制作用。
A simple way for preparing TiO2 ordered-film and its application in dye-sensitized solar cells were presented.
探讨了一种简便的制备二氧化钛有序薄膜的方法及其在染料敏化太阳电池中的应用。
In this thesis, the preparation of several TiO2 nanostructure was studied with an attempt to explore applications.
本论文工作也是从二氧化钛纳米结构制备出发,以期望在其应用方面有所突破。
The properties, character manufacturing methods and application field of ultrafine TiO2 were reviewed in this paper.
本文综述了超微细二氧化钛的性能、特点、制造方法和应用领域。
The Preparation of nanometer TiO2 power, nanometer TiO2 pellicle and nanometer TiO2 block are introduced in the paper.
介绍了纳米二氧化钛粉体、薄膜和块材的制备技术,其中对化学法作了较为全面的介绍。
The practicability on Ti-Ni alloy manufactured by direct electrochemical reduction of TiO2 and NiO oxides was investigated.
研究了利用熔盐电解法从金属氧化物中直接电解制备钛镍合金的可行性。
TiO2 nanometer sol was prepared by sol-gel method, and used for the white cotton poplins to yield quite good anti-uv results.
采用溶胶-凝胶法制得二氧化钛纳米溶胶,并对白色纯棉府绸织物进行整理,取得了较好的抗紫外效果。
Prepare the TiO2-SiO2 mixed oxide with highly dispersed titanium species through sol-gel process is also a hot research area.
另外,用溶胶凝胶法获得钛离子在硅氧体中高度分散的混合氧化物催化材料,也是一个新的研究热点。
Putting some TiO2 into aluminum electrolyzer can make aluminum ingot produced by electrolysis containing low content titanium.
向铝电解槽添加一定量的二氧化钛可使生产的铝锭中含有少量的钛。
This "delocalization" allows electron transfer from the nanocrystals to an electron-accepting material placed nearby, such as TiO2.
这一“离域作用”使得电子可以从纳米晶体传导到附近的电导体元件,例如TiO2。
Nanometer TiO2 is a new kind of inorganic functional material, its preparation and application have been paid more and more attention.
纳米二氧化钛是一种重要的新型无机功能材料,其制备及其应用在当代愈来愈受到重视。
The transmittance of the glass coated TiO2 was high and its transmissivity compared with common glass in visible spectra was over 72%.
该镀膜玻璃的透光性较好,在可见光范围内它相对于普通玻璃来说透光率在72%以上。
The silver-modified TiO2/zeolite catalyst was also prepared in order to improve the photodegradation efficiency of methyl orange waste water.
并通过对催化剂的改性来考察其对甲基橙染料废水降解效率的提高。
The innovation scheme for filtration of polymer melt was presented, including spinning pack, polymer melt filter and improvement of TiO2 filter.
介绍了有关熔体过滤方面的改造方案,包括纺丝组件、熔体过滤器和二氧化钛过滤器的改进。
Anatase nanosized TiO2 powders were prepared by low temperature liquid phase process using industrial Titanic solution as the starting materials.
以工业钛液为原料,通过低温液相法可以直接得到锐钛型纳米二氧化钛粉体。
The dyeing assistants has negative influence on the dispersity of TiO2 particles and the formation of HO, resulting in low decoloring efficiency.
并做了简单的机理探讨,研究表明,染色助剂对催化剂分散性,羟基自由基形成等影响是体系脱色率不高的主要因素。
The dyeing assistants has negative influence on the dispersity of TiO2 particles and the formation of HO, resulting in low decoloring efficiency.
并做了简单的机理探讨,研究表明,染色助剂对催化剂分散性,羟基自由基形成等影响是体系脱色率不高的主要因素。
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