The photovoltaic properties of polymer/inorganic hybrid systems have been investigated.
本论文研究了聚合物/无机材料复合体系的光伏特性。
Second, we prepared the pore-filling organic-inorganic hybrid proton exchange membranes.
制备了三维有序大孔填充的有机-无机杂化质子交换膜。
The recent research progress of organic-inorganic hybrid ultrafiltration membranes was reviewed.
对有机-无机杂化超滤膜的最新研究进行了综述。
This is not the simple organic compound and inorganic hybrid, but both are in nanometer range by chemical combination.
这种复合并不是简单的有机相与无机相的混合,而是二者在纳米范围内通过化学键结合而成。
Perovskite is an organic-inorganic hybrid material with a crystal structure that is extraordinarily efficient for converting light into electricity.
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。
The OIS, after molding and drying, gives easily transparent, solvent resistant membrane and high elastic fiber, those are actually the organic inorganic hybrid polymers.
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。
Organic-inorganic hybrid composites were prepared by the sol-gel method for the wear-resistant coating on epoxide resin and TEOS, KH-560, KH-570 were used as starting materials.
以正硅酸乙脂、KH- 560、KH - 570为先驱体,采用溶胶-凝胶法结合旋转涂敷法在环氧树脂基体上制备了有机硅耐磨涂层。
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.
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。
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.
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。
The developments of inorganic films, organic-inorganic hybrid films, rare earth chromophore are reviewed with the emphasis on preparation methods, synthesis, properties and the mechanism.
简要回顾了国内外近年来无机薄膜、复合薄膜、稀土配合物在工艺、合成、性能、机理等方面的研究情况。
Thus, it is significant to synthesize the organic-inorganic hybrid silver (copper) iodide polymer and investigate the rule of assemble, structure and the relation between structures and properties.
因此,合成一些新型的含银(铜)-碘的有机无机杂化聚合物,研究其反应组装规律、结构规律、性能和构效关系具有十分重要的意义。
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.
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。
Abstract Hybrid orbital theory is an important content of inorganic chemistry and structural chemistry in college text book, and it is the basis for further study of element compounds.
摘要杂化轨道理论是大学无机化学、结构化学课程的重要内容,是后续元素化合物学习的基础。
The performance of hybrid material will be perfect because performance of organic-inorganic component is complementary by crosslinking and compounding.
将有机、无机组分进行分子级复合,使两者的性能完美地结合在一起,能实现材料性能的互补。
TEOS PEG inorganic organic hybrid material possesses excellent physical chemical and optical properties, which can be widely used as optical materials for special purpose.
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。
Theory of hybrid atomic orbital is an important point in inorganic chemistry and structure chemistry.
杂化轨道理论是无机化学和结构化学课程重要的知识点。
TEOS PEG inorganic organic hybrid material possesses excellent physical chemical and optical properties, which can be widely us...
TEOSPEG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。
Researches on the two-photon photopolymerization technology of a Zr-based inorganic-organic hybrid material have been processed.
飞秒激光掺锆有机无机杂化材料双光子聚合工艺研究。
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.
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。
Chapter 2 is the preparation of hybrid (inorganic-organic) positively charged membranes via alcoholysis reaction and amination processes of silicone and titanate coupling agents.
第二章介绍了由硅钛偶联剂的醇解和胺化过程制备荷正电杂化膜。
Chapter 2 is the preparation of hybrid (inorganic-organic) positively charged membranes via alcoholysis reaction and amination processes of silicone and titanate coupling agents.
第二章介绍了由硅钛偶联剂的醇解和胺化过程制备荷正电杂化膜。
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