研究方向为无机功能复合纳米材料及其在催化、能源领域的应用。
Her research is focused on functional inorganic materials and their applications in catalysis and energy field.
具有核壳结构的包覆型复合纳米材料是最近几年材料科学前沿的一个日益重要的研究领域。
The coated composite nano materials with core-shell structures have recently become an increasingly important research branch in materials area.
核/壳结构复合纳米材料是具有特殊性能的功能材料,是由一种纳米材料通过化学键或其他相互作用将另一种纳米材料包覆起来形成的纳米尺度的有序组装结构。
The nanocomposite with core/shell structures is an ordered assembly system in which one nanomaterial is covered by another nanomaterial via chemical bond or other interactions.
理想的纳米复合材料不仅能抗辐射损害,通过吸收中子它本身也不会变得具备放射性。
The ideal nanocomposite would not only resist radiation damage. It would also not itself become radioactive by absorbing neutrons.
如果我们看一下碳纳米管的例子,碳纳米管在复合材料上的应用远早于它在电子设备上应用。“他指出。”
'If we look what happened to carbon nanotubes, carbon nanotubes made it into composites way before they ever made it into electronic devices,' he said.
由于纳米复合材料是复合而成,“空缺”和“填位”都被限制在涂层界面处。
Depending on how the nanocomposites are constructed, both the vacancies and the interstitials get trapped at the interfaces.
这种薄膜的材料是金属纳米粒子,它们被排列在透明的复合矩阵中。
The material is composed of metal nanoparticles embedded in a transparent composite matrix.
有机-无机纳米复合材料兼有无机和有机物的特点。
Organic - inorganic nanometer compound material have concurrently characteristic of inorganic - organic matter.
Abdolvand的目标是制作出一定范围的金属玻璃复合材料,包括银离子玻璃和银纳米粒子植入玻璃。
Abdolvand aims to fabricate a range of metal-glass composites, including silver-ion implanted and silver-nanoparticle implanted glasses.
Demkowicz博士说有可能设计出一种具有抗辐射的结构的纳米复合材料。
Dr Demkowicz says it is possible to design nanocomposites with a structure that resists radiation damage.
论述将纳米复合材料通过浸渍涂层的方法整理到棉织物及服装产品上,使其具有抗紫外线性能。
This paper is related to the method of coating cotton fabric and apparels by used of the nano composite materials for the UV blocking function.
Abdolvand的工作结果可能会引发纳米级光学与电子复合材料的整合。
The results of Abdolvand's work may lead to the integration of nanoscale optical and electronic components.
通过压力成型的方法获得纳米铜粒/石蜡温敏复合材料。
The copper nanoparticles/paraffin thermosensitive composite materials are obtained by the compress moulding.
提出随着纳米材料在木材科学与技术中的应用,必将给无机质复合木材的研究带来新的动力。
It suggested that the application of inorganic-nano materials to wood science and technology would bring forward a new impetus for wood-inorganic research.
稀土纳米复合氧化物因其具有纳米材料和稀土元素的双重特性,引起了科学家的广泛关注。
Nanosized rare earth complex oxides have dual characters of nanosized materials and rare earths, which attract scientists'extensive attention.
并且,现阶段纳米填充复合材料研究正在进行由定性分析到定量描述的转变。
Moreover, the current research of nanometer filling composite material is undergoing a changeover from qualitative analysis to quantitive description.
功能纳米复合材料的种类很多,其中磁性颗粒固体近年来被国内外广为研究。
Function nanocomposites have many sorts, one of which is referred to magnetic granular solids and is studied widely recently.
结果表明,采用真空热压后热轧工艺制备的碳纳米管铜基复合材料的致密度较高且能有效地防止被氧化。
SEM and XRD results show that the composite that is hot rolled after vacuum forming, has relatively high density and can avoid being oxidized effectively.
球磨过程中,碳化物之间能够互相固溶,可以用于高能球磨制备碳化物及纳米复合材料的研究制备多元碳化物复合材料。
The solid solutions all were supersaturated and metastable , and would dissolve each other with further milling , which was available for the achievement of multi - carbide composite.
本文综述非晶纳米晶复合材料的研究现状及进展。
The current study and development of amorphous-nanocrystalline composite materials were reviewed.
纳米复合材料的红外,紫外-可见吸收光谱和DRS测试表明复合材料具有与基体材料不一样的光谱特征。
There were some difference in spectrum of IR, UV-Vis and DRS between the composite materials and polycarbonate .
简要介绍了纳米复合材料的特点。
The characteristics of nano-composite materials were simply introduced.
介绍纳米材料的特性、制备方法及聚合物基纳米复合材料中纳米材料的表面处理方法。
Introduce the characteristics and preparation methods of nanometer materials as well as its surface-treating methods in the polymer-nanometer material composite.
利用XRD、SEM、TEM及氮吸附等多种测试手段对所制得的复合纳米净水材料进行表征。
XRD, SEM, TEM and the nitrogen adsorption tests are used to characterize the composite nano-water-purifying material.
评述了有机-无机纳米复合光学透明材料的研究现状。
Properties and application of optically transparent organic-inorganic nanocomposite materials are reviewed.
研究了纳米复合陶瓷材料的抗热震临界温差;
The critical temperature difference of nanocompsite ceramic materials was researched.
研究了纳米复合陶瓷材料的抗热震临界温差;
The critical temperature difference of nanocompsite ceramic materials was researched.
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