在有机非线性材料、光电导器件、光动力治疗癌症等领域的研究中,带有多种取代基的酞菁配合物受到关注。
Interesting in phthalocyanines modified by different substituents is growing in many fields such as organic nonlinear optical material, photoconducting device, and photodynamic therapy.
有机非线性材料最突出的优点是,它能够在分子水平上进行结构设计,以期取得最佳的光学非线性响应和其它特定的光电性质。
It is the best advantage that we can devise the nonlinear of the organic materials in molecule level, so that we can get the best optical nonlinear response and other optical character.
本文在简单介绍了有机非线性光学和极化的原理后,综述了聚合物二阶非线性光学材料的研究进展。
After a brief introduction to the principles of organic nonlinear optics and the procedures of poling, the progresses of polymeric second order nonlinear optical materials are reviewed.
有机高聚物是一种具有较大非线性系数和较快非线性响应时间的非线性材料。
Organic polymers are attractive nonlinear materials because of their both large nonlinear coefficient and ultrafast response time.
根据三阶非线性光学基本原理对有机材料三阶非线性光学效应的机理和材料的分子设计作了分析。
Based on the principles of nonlinear optics, the mechanism of third-order nonlinear optical responses of organic molecules and molecular design have also been analyzed.
具有非线性光学活性的有机聚合物材料被认为是一类能最新得到实际应用的、可望成为21世纪光电子学科学和工程的基础的分子非线性光学材料。
The polymer with nonlinear optical activity will become a kind of basic molecular nonlinear optical materials and will be firstly applied in the photo electronics and engineering in the 21st century.
利用静电自组装技术制备的具有有序纳米结构的有机分子超薄膜,因具有较大的三阶光学非线性而可能成为一种实用并产业化的三阶非线性光学材料。
Organic molecular ultrathin films with orderly nanostructure may be applied and industrialized firstly as one of third-order NLO materials because of their strong third-order optical nonlinearities.
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.
主要研究方向:绿色精细有机合成及产品开发、能染料暨新型有机非线性光学材料、机电致发光材料等。
Research Interests: Green progresses for synthesis of fine chemicals, Functional Dyestuff and Third-order Optical Nonlinear Organic Materials, Organic Electroluminesent Materials.
在非线性光学材料、分子光电器件、有机半导材料以及化学传感器等方面都具有广阔的应用前景。
The derivative has wide application prospect in the aspects of non-linear optical materials, molecular photoelectric devices, organic semiconductor materials, chemical sensors and the like.
在非线性光学材料、分子光电器件、有机半导材料以及化学传感器等方面都具有广阔的应用前景。
The derivative has wide application prospect in the aspects of non-linear optical materials, molecular photoelectric devices, organic semiconductor materials, chemical sensors and the like.
应用推荐