crystal engineering
英 [ˈkrɪstl ˌendʒɪˈnɪərɪŋ]
美 [ˈkrɪstl ˌendʒɪˈnɪrɪŋ]
晶体工程(学)
双语例句
- Syndiotactic polystyrene is a newly developing crystal engineering plastic and useful for the fields of automatization and electron.
间规聚苯乙烯是近年来发展起来的一种新型工程塑料,在自动化和电子工业中具有广阔的应用前景。 - The main investigating aspects will be the molecular designing and the crystal engineering of these materials, and searching new nonlinear optical materials by theoretical-experimental method.
未来研究重点在于此类材料的分子设计和晶体工程,采用理论与实验相结合的方法探索具有较强非线性光学效应的新材料。 - In this paper, we also tried to explain the reasons that MMONS have the highest SHG efficiency from both molecule and crystal engineering.
本文报道了它的新的制备方法及部分非线性光学性能的研究,并从分子结构和晶体结构二方面讨论了倍频效应极高的原因。 - New development of LiNbO_3 crystal domain engineering
铌酸锂晶体畴工程的研究及进展 - Recently, crystal engineering of coordination polymer and supramolecular chemistry has become one of the particularly important and topical subjects, and also there are potential applications in the fields of medicine, absorption and selective catalysis, nonlinear optical and magnetic materials.
配位聚合物和超分子化学的晶体工程已成为近年来化学研究的热点领域之一,且在医药、吸附与选择性催化、非线性光学与磁性材料等方面显出潜在的应用价值。 - Liquid crystal polymer& engineering plastics with high performance
高性能工程塑料&液晶聚合物 - According to the principle of crystal engineering, it is possible that rational design and synthesis of porous crystalline materials by selecting certain geometric metal ions and special organic ligands;
按照晶体工程的原理,通过选择特定几何构型的中心金属原子和特殊的有机配体可以在一定程度上实现晶体材料的定向设计与合成; - Due to the strong coordination of sulfur to metal ions, molecular design or crystal engineering of these sulfur rich ligands is attractive to inorganic chemists.
有目的地利用它们与金属离子间较强的配位能力对这些化合物进行晶体或分子设计已成为配位化学在富硫有机配合物研究中的一个热点。 - This review will focus on classification and insecticide mechanism of Bt crystal protein genes, the application of Bt crystal protein genes in engineering of insect resistant plants. In addition, the potential problems of Bt toxic protein gene engineering and resolving ways will be discussed.
本文对苏云金杆菌杀虫晶体蛋白基因的分类和杀虫机理及用该类基因构建的工程转基因植物研究状况作一简要综述,同时对Bt基因工程存在的潜在问题和解决途径作了简单的探讨。 - The successful syntheses of 12 and 13 demonstrate the possibility of bridging transition metal complexes with heteropolyanion via hydrogen bonding interactions to construct supramolecular arrays and may provide interesting experimental data for supramolecular chemistry and crystal engineering.
这两个化合物的成功制备表明了利用氢键连接过渡金属配合物和多阴离子来构筑多维超分子体系的可行性,并为超分子化学和晶体工程学提供了一些有意义的实验数据。 - Crystal Engineering and its Application in Chemistry
晶体工程及其在化学中的应用 - Crystal Engineering of Nonlinear Optical Materials based on Coordination Complexes
配合物型非线性光学材料的晶体工程 - Besides NLO field, the using of the ligand can be found in the field of supermolecular chemistry and crystal engineering.
除NLO领域外,IPVB还可以在超分子化学和晶体设计等其它领域得到应用。 - Crystal Engineering in Ionic Liquids& Designing Synthesis and Characterization of Organic-inorganic Hybrid Materials
离子液体中的晶体工程有机无机杂化材料的设计合成与表征 - This dissertation includes the following five parts: ( 1) Chapter 1: Introduction, the concepts and principles of coordination chemistry, crystal engineering and coordination polymers are simply introduced.
全文共分为五章,各章简要内容如下:第一章绪论,简要介绍了配位化学、晶体工程学和配位聚合物等基本概念。 - The design and synthesis of novel functional coordination polymers which have interesting and useful structure have become a hot topic in coordination chemistry and crystal engineering.
以材料功能化为设计目标,合成具有新颖结构、性能优异的配位聚合物已经成为了现代配位化学和晶体工程的研究热点。 - The development and LCD application of the liquid crystal materials has brought significant economic benefits, however, the driving force based on the formation of liquid crystalline state has become a basic research direction in the liquid crystal molecules engineering.
以显示为目的的液晶材料开发及应用带来了显著的经济效益,而基于液晶态形成的驱动力的研究已经成为液晶分子工程领域的基础研究方向。 - In the realm of the controllable construction of the title polymers, the crystal engineering of coordination frameworks is an effective method.
利用晶体工程原理精心设计和调控组装配位聚合物是构筑配位聚合物的有效手段。 - How to obtain materials with prospective structures and function is the prime importance in crystal engineering. It demonstrates that using some specific assembly strategy and choosing suitable building blocks should be the key in constructing target materials.
目前,该研究课题的核心任务是如何选择和设计合适的构筑基块并通过一定的晶体工程策略来获得具有预期结构与功能的晶体材料,来实现他们在应用方面的价值。 - The assembly of hybrid inorganic-organic compounds is a very fruitful tool for obtaining frameworks with fascinating structure and composite functionality in crystal engineering.
在晶体工程中,合成无机-有机杂化化合物是获得丰富结构和功能性材料的有效方法。 - Crystal engineering involves the behavior of molecules or chemical groups in crystals, the crystal design, the control of structures and properties, and the prediction of crystal structures.
晶体工程涉及分子或化学基团在晶体中的行为、晶体的设计、结构和性能的控制以及晶体结构的预测等,是实现从分子到材料的一条重要途径。 - The design and synthesis of novel functional coordination polymers have been one of the most interesting research topics in coordination chemistry and crystal engineering.
设计与合成结构新颖、性能优异的配位聚合物是当今配位化学和晶体工程学领域的研究热点之一。 - It helps to enrich synthetic chemistry and structure chemistry and accumulate some valuable ideas for the design and synthesis of functional coordination polymers by the theory of crystal engineering.
在丰富了配位聚合物合成化学和结构化学的同时,为进一步通过晶体工程原理设计和合成功能配位聚合物积累了有价值的指导思路。 - In the past few decades, the study of supramolecular chemistry and crystal engineering based upon the spontaneous self-assembly of metal ions and bridging organic legends has drawn pronounced interest.
在过去的几十年,基于过渡金属和桥连配体的自组装的超分子化学和晶体工程的研究吸引了越来越多的关注。 - In addition, the crystal engineering is an important section of the molecular engineering, which involves the assembly behavior of molecules or chemical groups in crystal, the design of crystal and the control of the structure and performance.
此外,晶体工程学是分子工程学的一个重要组成部分,它涉及分子或化学基团在晶体中的组装行为、晶体的设计及结构与性能的控制。 - How to choose and design the suitable building blocks to construct some metal-organic coordination polymers with expected special structure and function is the core task of crystal engineering, and also is one of the challenging projects nowadays.
如何通过选择和设计合适的构筑块并通过某种特定组装来获得具有预期结构与功能的材料是晶体工程的核心任务,也是目前极具挑战性的研究课题之一。 - From the self-assembly behavior in solution to the crystal engineering in solid state, charge transfer interaction involves everywhere in supramolecular science.
可以说,电荷转移作用涉及到超分子科学的方方面面,从溶液中的自组装行为到固态条件下的晶体工程学,几乎处处都可以看到电荷转移作用的影子。 - The design and synthesis of particular structure and good performance are research hotspot in the coordination chemistry, supramolecular chemistry, materials chemistry, crystal engineering recently.
具有特定结构和优良性能的新型功能配位聚合物的设计和合成是当今配位化学、超分子化学、材料化学和晶体工程等诸多领域的研究热点。 - Under certain conditions, coordination polymers with high regulation can be synthesized by metal ions and organic cations through molecular assembly and crystal engineering method.
通过分子组装和晶体工程的方法,金属离子和有机阳离子在一定条件下可以得到具有高度规则的配位聚合物。 - Bottom-up construction of metal-organic coordination polymers with desired structure and property, by selecting metals and organic ligands, is the central mission of crystal engineering.
利用所选择的金属盐和有机配体定向合成具有特定结构和性能的配位聚合物,这是晶体工程的中心任务。