介绍了非线性光学和微光学玻璃两类光电子材料的制备、特性及应用领域。
This paper presented a brief review of the preparations, properties and applications of the optoelectronic glasses which consist of nonlinear and micro optical glasses.
摘要晶片直接键合技术是材料集成的一项新工艺,是近年来集成光电子领域的研究热点之一。
Direct wafer bonding is a new process of material integrating and has received tremendous attention in the research of optoelectronics and microelectronics field.
晶片直接键合技术是材料集成的一项新工艺,是近年来集成光电子领域的研究热点之一。
Direct wafer bonding is a new process of material integrating and has received tremendous attention in the research of optoelectronics and microelectronics field.
提出了建立原料废料可相互循环利用的光电子、微电子基础材料的环保工业基地的建议。
The environmental protection industry base of photoelectron and micro-electrons basic material for the mutual circulating use of material and scrap is proposed.
光电子产业分为光电材料与元件产业、光学器材产业、光咨讯产业、光通信产业和激光产业五大类。
The optoelectronic industry includes optoelectronic material industry, optics equipment industry, optoelectronic information industry, optoelectronic correspondence industry and laser industry.
半导体材料的非线性光学特性在光电子器件领域,如全光开关、光学限幅器、光波耦合器等方面有很好的应用价值。
The nonlinear optical properties of semiconductors were intensively used in the optoelectronic devices, such as all-optical switches, optical limiters and waveguide formation etc.
提出了建立原料废料可相互循环利用的光电子、微电子基础材料的环保工业基地的建议。
The environmental protection industry base of photoelectron and micro-electrons basic material for the mutual circulating…
半导体异质外延材料和量子点材料在纳米电子学、光电子学中具有广泛的应用前景。
The materials of semiconductor hetero-epitaxy and quantum dots are widely used in the fields such as nano-electronics and optoelectronics.
硅基发光材料是光电子集成的基础材料。
Si-based light-emitting materials are fundamental in optoelectronic integration.
高分子材料在光电子领域是一种必不可少的材料。
Polymer has been one of the essential materials in optoelectronics.
纳米结构材料在电子学、光电子学及存储器件等领域具有深远的应用前景。
Nanostructured materials are expected to play a crucial role in the future technological advance in electronics, optoelectronics, and memory devices.
通讯,生物科技、新材料工业、光电子技术、高效节能技术。
Communication, bio-tech, new material industry photoelectron technology and high efficient energy saving technology.
光电子信息材料是本世纪最受关注的材料之一,光电子集成器件在信息时代有极其重要的作用。
The material of optoelectronic information is one of the extremely greatest concerns of the material. Optoelectronic integrated devices take the most important effect.
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.
硅基发光材料是未来光电子集成的基础材料。
Silicon based light emitting materials are the elemental materials for the future optoelectronic integration.
近年来,纳米半导体材料特别是纳米硅在光电子领域中的研究已经越来越引起人们的注意。
Recently, research on nano-semiconductor materials in photo-electronic fields has drawn more and more interest.
为了提高设备效率,当前主流光电子制备技术使用含有铟锡氧化物(ITO)的载体,然而这种材料价格昂贵并且不具有柔性。
Most current fabrication techniques in optoelectronics use carriers containing indium tin oxide (ITO) to achieve highly efficient devices. However, this material is expensive and unflexible.
本文综述了硅酸盐材料在光学和光电子学领域的应用。
The application of silicate materials in optics and optoelectronics has been reviewed.
通过改性聚苯乙烯试样在拉萨和漠河户外暴露试验,利用X射线光电子能谱(XPS)探讨了改性聚苯乙烯材料表面老化机制。
The modified polystyrene samples were exposed outdoor at Lasa and Mohe natural environmental test stations and their weathering mechanism was studied by using XPS.
光子晶体及其在光电子领域的应用是目前国际上的研究热点之一,是一种新型的光电子功能材料。
Photonic Crystals(PC) and its application in optoelectronics is one of the research focus recently. PC is a new kind of optoelectronics functional materials.
它是目前最重要、最成熟的化合物半导体材料之一,主要应用于光电子和微电子领域。
It is one of the most important and most mature compound semiconductor materials, mainly used in the field of optoelectronics and microelectronics.
利用X射线衍射(XRD)、X射线光电子能谱(XPS)对材料进行表征,并将复合材料用作锂离子电池负极材料,研究了它作为负极的电化学性能,并初步探讨了化学机理。
The composite was investigated by XRD and XPS, its electrochemical performance as anode active materials for lithium ion batteries was studied, and its chemical mechanism was discussed.
利用X射线衍射(XRD)、X射线光电子能谱(XPS)对材料进行表征,并将复合材料用作锂离子电池负极材料,研究了它作为负极的电化学性能,并初步探讨了化学机理。
The composite was investigated by XRD and XPS, its electrochemical performance as anode active materials for lithium ion batteries was studied, and its chemical mechanism was discussed.
应用推荐