1)ionic liquid crystal离子液晶
1.Metal-containing ionic liquid crystals(MILC) have attracted great attention because their unique properties and versatile potential applications.本论文主要是利用离子液体构建该类型液晶,并对其性质、结构进行表征分析,同时对它作为模板现场制备半导体纳米粒子的应用进行初步的研究,研究内容主要包括三部分:第一部分,设计合成了十六烷基咪唑氯化物及溴化物与不同的金属卤化物形成的钙钛矿型金属离子液晶,并通过旋转涂膜的方法获得了其结构薄膜。
2.Research progress on ionic liquid crystals of imidazolium salts were introduced from the aspects of structure characters,syntheses,liquid crystalline properties and potential application.着重介绍咪唑盐类离子液晶的研究进展,包括这类化合物的结构特点,合成,液晶性能及应用前景等方面。
英文短句/例句
1.Preparation, Characterization and Template Application of Perovskite-Type Liquid Crystal钙钛矿型离子液晶的制备、表征与模板应用
2.Synthesis and mesomorphism of novel cyclotriphosphazene-tethered imidazolium ionic liquid crystals三聚磷腈咪唑盐离子液晶的合成及其性能研究
3.Studies on the Lyotropic Liquid Crystallines Formed by Lipids and Imidazolium-Type Ionic Liquids;类脂立方液晶及咪唑类离子液液晶的研究
4.Studies on Micelle and Lyotropic Liquid Crystal in Ionic Liquids离子液体中胶束以及溶致液晶的研究
5.PALC is a mixture of AMLCD and plasma.PALC是有源矩阵液晶和等离子体的结合。
6.Sodium Ion Transfer Across Micro Water/1,2-DCE Interface Facilitated by Liquid Crystal Crown Ether端烯基液晶冠醚推动钠离子在微液/液界面的转移
7.Early stage phase separation kinetics in flexible polymer/liquid crystal mixture柔性高分子/液晶共混体系的相分离初期动力学
8.Crystal Structure、Electrochemical Capability and Application of Ionic Liquids;离子液体的晶体结构、电化学性质及应用
9.Preparation of Metal Sulfides Nanomaterials in Ionic Liquids;离子液体介质中硫属金属纳米微晶的制备研究
10.The Crystallization of Protein in the System of Ionic Liquid-water离子液体—水体系中蛋白质晶体的生长研究
11.The molecular sensor based on surface plasmon resonance tuned with liquid crystal利用液晶调制表面等离激元共振的分子传感器
12.Electrochemical Nucleation and Growth Mechanism of Zn from a Mixed Ionic Liquid混合离子液体中锌的电化学结晶及生长机理
13.Enzymatic Hydrolysis of Microcrystalline Cellulose with an Ionic Liquid Pretreatment Step离子液体[BMIM]Cl预处理对微晶纤维素酶解的影响
14.Plasma addressed liquid crystal (PALC) technology is a variation of plasma technology.等离子体寻址液晶(PALC)技术是等离子体技术的变种。
15.Molecular Interactions Between Imidazole-based Ionic Liquids and Gases Using Quartz Crystal Microbalance石英晶体微天平技术研究咪唑类离子液体与气体分子的相互作用
16.SELF-OSCILLATION DUE TO THE DRIFT OF IONIC CHARGE CARRIERS IN LIQUID CRYSTAL OPTICAL BISTABILITY液晶光学双稳态中离子电荷飘移引起的自脉冲振荡
17.Acousto-optic light modulation. Liquid crystal, plasma, electroluminescent, digital-mirror, and membrane-mirror displays.11 11声光调变器,液晶,等离子体,电致发光,数位镜技术,薄膜镜显示器。
18.Studies of the Optical Devices Based on Liquid Crystal and Surface Plasma;基于液晶及表面等离子效应的若干光器件的研究
相关短句/例句
PALC等离子体选址液晶显示
3)liquid crystal particles液晶粒子
1.Using liquid crystal particles to measure fluid temperature field is a new kindof thermometry technique.液晶粒子测量流体温度场是一种新型的测温方法。
4)configurational ion构晶离子
1.Introduced the concept into side reaction coefficient for configurational ion, and count off solubility through side reaction coefficient.在多种副反应存在下,对构晶离子引入副反应系数的概念,由副反应系数计算出微溶盐的溶解度,可以使复杂的溶解度的计算问题简单化、系统化。
5)ionic crystal离子晶体
1.Synthesis and crystal structure of ionic crystal :K_2NaH[α-Co W_(12)O_(40)][Cr_3O(OOCCH_3)_6(H_2O)_3]·10H_2O;K_2NaH[Cr_3O(OOCCH_3)_6(H_2O)_3][α-Co W_(12)O_(40)]·10H_2O离子晶体的合成与晶体结构
2.Based on the analysis of the above relationships, the inappropriateness of the debye model has been found, when the valences on A and B are 1,2 or 3 in AB(1∶1) ionic crystal, respectively, the minimal values of lattice energy are 546 kJ/mol, 2 481 kJ/mol or 2 969 kJ/mol for the three types of crystals, resp.通过分析这些关系发现了德拜理论模型不恰当之处,预测A和B电荷均为1,2或3的AB(1∶1)型离子晶体最小晶格能值分别为546,2481及2969kJ/mol,其中546kJ/mol是离子晶体晶格能的最小可能值。
3.The results showing that α-Ti, atomic crystal w ith face-center structure became TiH 2 , ionic crystal with cubic-center s tructure, and there were two parallel process after electrolysis: chemical adsor ption occured on the surface of material mainly, but d.结果表明 ,电解后面心立方结构的原子晶体α Ti转变成了体心立方结构的离子晶体TiH2 ;存在着两个不平衡的并行进程 :化学吸附主要发生在材料表面 ,占优势的物理吸附强化了材料内部的晶体位错 。
6)ionic crystals离子晶体
1.Research on heat radiation characteristics of ionic crystals;离子晶体热辐射特性的研究
2.This paper is about a general calculation of radius ratio of simple ionic crystals and offers a general equation of calculating the radius ratio of simple ionic crystals for each crystal class.介绍了关于简单离子晶体中离子半径比的计算方法,给出了一个适用于各种类型简单离子晶体的一般公式,具有简便直观,易掌握之优点。
3.Applying this method, the binding energies of single valent ionic crystals were computed.本文取一维非谐振子哈密顿量为H=H0+ex-2l=0xll!,令H′^=ex-2l=0xll!为微扰,求得H′^在粒子数表象中的对角矩阵元,并用微扰法计算了单价离子晶体的内能与结合
延伸阅读
热致液晶聚合物向列液晶态热致液晶聚合物向列液晶态 执戮液晶饭合物向列攻晶态 成郎有f几硅研究听供稿
