XRD分析表明,杂化材料是无定形的。
XRD分析表明,杂化材料是无定形的。
飞秒激光掺锆有机无机杂化材料双光子聚合工艺研究。
Researches on the two-photon photopolymerization technology of a Zr-based inorganic-organic hybrid material have been processed.
利用差示扫描量热仪对杂化材料的固化动力学进行了研究。
The kinetic curing reaction of hybrid materials performs by differential scanning calorimetry (DSC) technique at different heating rate.
较详细地介绍了杂化材料的概念及其制备方法、性能和应用。
Preparation, property and application of hybrid materials are briefly introduced .
可望使不同比例的杂化材料通过传感器阵列实现气体的检测。
Detecting gas through sensor array using the hybrid material with different ratios is expected to realize.
射线粉末衍射分析表明所制得的杂化材料基本上是非晶态物质。
XRD analysis indicated that the prepared hybrid material was amorphous material.
结果表明:随着杂化材料中钛含量的增加,它们的比表面积随之增大。
The results show that, when the contents of titanium increase, the specific area of these hybrid materials increase accordingly.
采用溶胶-凝胶法制备有机-无机杂化材料是近年来热门的研究领域。
At present, preparation of hybrid material via a sol-gel process has been a hot field in material research.
所以,本论文采用锗元素来合成杂化材料底物,这是一种新的合成方法。
So, we can synthesize mesoporous hybrid materials with germanium element, this is a kind of new synthetic method.
本文阐述了PI纳米杂化材料的制备方法,介绍了纳米杂化材料的特点及应用。
One of the best ways to improve properties of PI is to introduce nanometer materials into the PI matrix and yield pol…
这种钙钛矿是一种有机-无机杂化材料,具有能够非常高效地进行光电转换的晶体结构。
Perovskite is an organic-inorganic hybrid material with a crystal structure that is extraordinarily efficient for converting light into electricity.
溶胶-凝胶法制得的有机-无机杂化材料通常显示低弹性模量、高延展性及高机械强度。
Organic-inorganic hybrids synthesized by sol-gel process usually exhibited low elastic modulus, high ductility and high mechanical strength.
通过溶胶-凝胶法将有机荧光体包覆在无机凝胶中,制得了一种新的有机-无机杂化材料。
The organic luminophore is encapsulated in the silica gel, thus a new organic-inorganic doped material is made.
挥发诱导自组装方法可以用来模拟自然界中的有机-无机杂化材料的纳米有序结构的形成过程。
Materials with organic-inorganic mesostructure in nature can be simulated by the approach of evaporation-induced self-assembly.
提高光致变色染料的稳定性、制备溶胶-凝胶光纤及降低杂化材料羟基含量是目前的研究重点。
On the present, the main studies focus on the stability improvement of photochromic dyes, preparation of sol-gel optical fibre and decrease of hydroxyl group content.
着重总结了近年来这类杂化材料在功能性研究上新的进展,并对今后研究的发展趋势进行了展望。
The emphasis is put upon the new developments of various approaches taken to prepare hybrid nanomaterials in the recent years.
现代科学技术的飞速发展对工程介电材料的种类和性能提出了更高的要求,各种杂化材料应运而生。
With the rapidly development of the science and technology, it requires the engineering dielectric material has higher performance and more types.
文章论述近年来有机无机杂化材料在光学材料、陶瓷材料、凝胶材料及生物材料方面的研究及应用。
This paper reviews the research and application progress of organic inorganic hybrid material in the fields of optical materials, ceramic materials, gel materials and biologic materials.
杂化材料的断面扫描电镜(SEM)分析表明, 硅氧烷的水解缩合并未形成大颗粒纳米粒子而是形成均相体系。
The Scanning electron microscopy(SEM) photographs of fracture surface of the hybrid material show that the hybrid material presents homogeneous system without obvious inorganic particle forming.
XRD分析表明分子筛在杂化材料中保持原状,FT - IR证实TDI能够与沸石分子筛表面的硅羟基进行接枝反应。
The XRD shows that zeolite without changing in the hybrid materials. The FTIR proves that the grafting reaction can happen between TDI and Si-OH in the surface of the zeolites.
溶胶-凝胶技术是制备有机-无机杂化材料的重要手段,在光致变色、光纤传感和发光等光化学杂化材料制备方面应用前景广阔。
Sol-gel technique is an important experimental method for preparation of organic-inorganic hybrid materials which can be widely used to manufacture photochromic, optical fibre and emission materials.
最后,研究了含POSS - NH_2的环氧杂化材料的性能,包括力学性能、热稳定性、抗热氧化稳定性、密度、尺寸稳定性等。
Finally, the as obtained hybrid material containing POSS-NH_2 was studied in respect to mechanical properties, thermal stability, hot-oxygen resistance, density and dimension stability.
杂化后材料的热稳定性有相当大的提高。
针对含磷毒气快速检测问题,以自制的杂化酞菁钯-聚苯胺为敏感膜材料,设计了一种双信道声表面波(SAW)传感器。
Aimed at the problem of quickly detecting phosphorus-containing toxic gas, we used home-made hybrid PdPc-PANI as the material for sensitive film and designed a binary channel SAW sensor.
OIS经成型和干燥后即可方便地形成耐溶剂性的有机无机杂化高分子材料,如透明薄膜和高弹纤维。
The OIS, after molding and drying, gives easily transparent, solvent resistant membrane and high elastic fiber, those are actually the organic inorganic hybrid polymers.
PEG无机有机杂化复合材料具有优良的物化性能及光学性能,可广泛用作各种特殊用途的光学元件。
TEOS PEG inorganic organic hybrid material possesses excellent physical chemical and optical properties, which can be widely used as optical materials for special purpose.
通过有机-无机杂化的透明导电薄膜能够借助各组成材料特性的互补作用使复合材料具有出色的综合性能。
The organic-inorganic transparent and conductive films can take the advantages of every component and enable the film exhibit excellent comprehensive property.
本发明涉及一种有机-无机杂化多孔整体材料的“一锅法”制备。
The invention relates to a 'one-pot' preparation of organic-inorganic hybridization porous monolithic material.
这对于理解过渡金属原子簇化合物内的电子转移对光学激发的作用以及用来设计新的无机-有机杂化二阶非线性光学材料有较大的帮助。
The results are helpful to understand the relationships between charge transfer and optical excitation, and to the design of novel organic-inorganic hybrid nonlinear optical materials.
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