聚合物光盘基板材料

光盘是一种以非接触方式记录/再现信息的信息记录介质,主要由基板、记录层和保护层组成.其中,基板材料所用的光学塑料是光盘生产的主要原材料,对光盘的性能和成本构成至关重要.本文综述了聚合物光盘基板材料的研究现状及其发展趋势.光盘基板材料主要包括传统的聚碳酸酯(PC)、聚甲基丙烯酸甲酯(PMMA)、环氧树脂以及近年发展起来的非晶环烯烃聚合物.研制具有较低的双折射、吸湿性、固化成型收缩率以及较高的存储密度和存储寿命的光盘基板材料是聚合物光盘基板材料的一个重要研究领域.     

聚合物光盘基板材料的研究进展

光盘是一种以非接触方式记录/再现信息的信息记录介质,主要由基板、记录层和保护层组成。其中,基板材料所用的光学塑料是光盘生产的主要原材料,对光盘的性能和成本构成至关重要。本文综述了聚合物光盘基板材料的研究现状及其发展趋势。光盘基板材料主要包括传统的聚碳酸酯（PC）,聚甲基丙烯酸甲酯（PMMA）、环氧树脂以及近年发展起来的非晶环烯烃聚合物。研制具有较低的双折射、吸湿性、固化成型收缩率以及较高的存储密度和存储寿命的光盘基板材料是聚合物光盘基板材料的一个重要研究领域。     

20年来三代可记录光盘记录材料的研究概况

本文综述了近20年来应用于红外光CD-R、红光DVD±R和蓝光BD-R/HD DVD-R三代可记录光盘中的记录材料的研究和应用进展,介绍了菁类、大环氮杂、偶氮、金属螯合物、苯并杂环等类染料作为光记录材料进行的研究,评述了可记录光盘记录材料的薄膜光学、记录灵敏度、光热稳定性、旋涂成膜性等特性,概括了每一代可记录光盘记录材料的特性与光盘系统的关系,讨论了大环氮杂金属配合物具有的良好材料特性,尤其是高光热稳定性和适中的记录灵敏度,并结合大环氮杂金属配合物在早期两代可记录光盘中已得到的重要应用及本课题组对此类材料的研究结果,认为其将是高密度蓝光盘记录材料的重要发展方向之一.     

可录型光盘(CD-R)中染料膜层的光谱性质和光学特性

本文利用光在多层膜介质中的传播模型,计算了可录型光盘（ＣＤ Ｒ）中染料媒体的光学特性．表明在适合于ＣＤ Ｒ光盘记录的７８０ｎｍ波长处,由于多层膜中光的干涉作用,样品反射率随薄膜的厚度变化发生振荡．振荡的幅度和周期依赖于染料薄膜的复数折射率（ｎ＋ｉｋ）．当记录介质层的复数折射率在２．１＋ｉ０．０２至２．８＋ｉ０．１２之间时,能够满足ＣＤ Ｒ光盘对染料介质的要求．通过对三种菁染料薄膜的光谱性质分析及光学参数的模拟计算,证实了该方法用于染料薄膜光学特性研究的合理性．并为选择适合于光记录的染料薄膜的厚度范围提供了简便的方法     

一种偶氮染料金属螯合物薄膜的光学特性研究

偶氮染料是一类广泛应用的纺织用有机染料^[1],近年来随着光电子技术的发展,偶氮染料作为非线性光学材料^[2]和光信息记录介质^[3]引起人们极大的兴趣.偶氮染料具有对光吸收大,容易制备,在有机溶剂中具有较高的溶解度而适用于湿法涂布等优点,可以作为可录光盘(CD-R)的记录介质.     

混合溶剂对可录型光盘中吲哚类菁染料薄膜性能的影响

本文采用紫外可见光谱、FT-IR及AFM等手段,研究了混合溶剂对光盘记录介质吲哚类菁染料薄膜光学性能、稳定性和表面结构的影响.发现在不同混合溶剂下涂出的相同膜厚的染料薄膜,其光学性能和表面形貌都有很大的差异.不同的混合溶剂都存在一个最佳混合体积比,染料在此体积比下旋涂出膜的光学性能和表面形貌均优于单一溶剂下涂出的膜.对比不同混合溶剂涂出的膜的光学性质及AFM的观测结果,发现二丙酮醇与氯仿在等体积比混合、四氟丙醇与氯仿在7:3体积下混合时效果最好,易得到反射率高,表面较平整的染料薄膜.     

有机相变材料的合成及性能的研究

在光盘存储技术中,最关键的是发展新型存储材料,有机相变材料作为光信息记录材料已越来越受到人们的重视.     

银盐计算机直接制版材料及有机光盘记录介质的研究

本研究工作包括两部分内容,第一部分是银盐扩散型计算机直接制版材料(Computer-To-Plate,CTP),第二部分是可录型有机光盘(CD-R,DVD-R)记录介质,均属于信息记录领域的热门课题.     

用于光盘记录介质的“偶氮染料-聚合物”复合材料

由噻唑类偶氮染料和硝化纤维组成的复合材料涂布于玻璃载体上可用作光盘记录介质,测定这一记录介质的光学性质和物理性质,表明其具有良好的记录灵敏性和读写特性。     

N,N,N＇,N＇-四苄基取代方块菁染料LB膜研究

方块菁染料在有机光导材料^[1,2]、有机太阳能存储^[2,3]、光记录^[4、有机光盘中红外吸收器^[4]以及光纤识别功能薄膜等领域中有着广泛应用前景.     

高密度可录光盘存储材料:金属卟啉配合物*

金属卟啉配合物在400-650 nm波段具有优良的光学性质,是一类新型高密度可录光盘存储介质材料.本文在总结近年来最新研究成果的基础上,阐述了金属卟啉配合物的结构特点、合成方法和作为高密度可录光盘存储介质的作用机理,讨论了影响卟啉配合物性质和光存储性能的主要因素,并对未来的发展趋势作了展望.     

光盘用2P胶应用研究进展

对光盘用２Ｐ胶的应用研究进展情况进行了评述，其中光盘制备用光聚合浮雕成型２Ｐ胶的基本组成为各类多官能团丙烯酸酯类单体；光盘保护涂层用２Ｐ胶主要组分为环氧丙烯酸酯类预聚体。     

Fiber-optic glucose biosensor based on glucose oxidase immobilised in a silica gel matrix

A monolithic silica gel matrix with entrapped glucose oxidase was constructed as a bioactive element in an optical biosensor for glucose determination. Physicochemical and biochemical characterizations of the catalytic matrix were performed, and the intrinsic fluorescence of immobilised glucose oxidase (GOD) was investigated in the UV and visible range by performing steady state and time course measurements. In all cases, the silica gel matrix proved to be a suitable support for optical biosensing owing to its superior optical properties (e.g., high transmittance and reliable fluorescence and GOD absorption spectra after immobilisation). From steady state measurements, calibration curves were obtained as a function of glucose concentration. When time course measurements were performed, the silica gel support displayed a larger linear calibration range and higher sensitivity than other immobilisation systems. In addition, a glucose optical biosensor was developed and characterised using as catalytic element GOD immobilised on a gel disk bound to a bundle of optical fibres.     

当前光学塑料的研究方向及综合性能的均衡

根据结构与性能的关系对当前光学塑料的主要研究方向进行了归纳和总结，介绍了具有高折光指数、高耐热性及其它功能性的新型光学材料，指出了性能之间均衡对实现化的意义。     

高折射率聚合物-无机纳米光学杂化材料的设计与制备及其应用

传统的高折射率聚合物光学材料,可以通过向聚合物中引入一些芳香环,含硫基团以及除氟以外的其他卤素原子来提高聚合物光学材料的折射率,但是就目前的研究现状来看,这类纯聚合物光学材料的折射率一般都低于1.8.而将具有高折射率的无机纳米粒子引入到聚合物中,所制备的聚合物-无机纳米光学材料的折射率能够达到1.8以上.而且这类高折射率聚合物-无机纳米光学杂化材料同时具有高分子光学材料和无机材料的双重优点,具有广泛的应用前景.鉴于当前高折射率聚合物-无机纳米光学杂化材料发展之迅速和其研究与开发的重要性,并结合目前国内外的研究现状,本文就高折射率聚合物-无机纳米光学杂化材料的设计、制备方法及其相关应用做一个比较系统的介绍,同时对这类材料在未来研究中所应注意的问题也提出了相应的看法.     

Recent advances in optical manipulation of cells and molecules for biological science

Noninvasive and nondestructive techniques for monitoring and manipulating cells or biomolecules are essential for understanding biological processes. Optical methodologies have been used for the noninvasive and nondestructive monitoring of intracellular molecules and manipulation of cellular activities to elucidate the localization and interactions of these biomolecules. Since the pioneering work of Ashkin, optical trapping has been used to study cellular elasticity and mechanical characteristics of intracellular molecules. In recent years, there has been a substantial amount of research on the optical manipulation of nanometer-sized objects, including the manipulation of the assembly of nanomaterials and the enhancement of optical forces with optical resonance effects. In the study of biomolecular manipulation by optical forces, the functions and roles of biomolecules have been clarified by analyzing the changes in cellular functions induced by manipulation. In this review, we focus on recent studies on optical trapping for the manipulation of living cells or biomolecules and introduce techniques for the manipulation of cellular functions using optical forces.     

含硫高折射率光学树脂合成及性能研究进展

作为无机玻璃的替代品,有机光学树脂具有轻质、抗冲击性好、易加工和可调性强等优点。折射率是光学树脂的主要参数之一,折射率的高低可直接影响成品镜片的厚度、美观性和舒适度。在不降低光学树脂综合性能的基础上提升光学树脂折射率一直是该领域的热点和难点,在光学树脂中引入高摩尔折射率的硫元素被认为是最有效和常用的方法之一。本文将含硫光学树脂分为烯烃类、环氧类、环硫类、多环类和聚氨酯类,简要综述了国内外近几年的研究进展,涉及单体合成、单体聚合以及单体结构对光学树脂综合性能影响,系统总结了以上材料的特性及发展。     

光通讯波段聚合物光波导材料的研究进展

光学聚合物由于其在光通讯领域的集成光电器件与光互连应用方面有经济和实用价值而备受关注。本文介绍了光通讯波段有机聚合物光波导材料的特点和研究进展。     

An optical reflected device using a molecularly imprinted polymer film sensor

A novel and highly selective optical sensor with molecularly imprinted polymer (MIP) film was fabricated and investigated. The optical sensor head employing a medium finesse molecularly imprinted polymer film has been fabricated and characterised. A blank polymer and formaldehyde imprinted polymer were using methacrylic acid as the functional monomer and the ethylene glycol dimethacrylate as a crosslinker. The transduction mechanism is discussed based on the changes of optical intensity of molecularly imprinted polymer film acting as an optical reflected sensor. Template molecules, which diffused into MIP, could cause film density, and refractive index change, and then induce measurable optical reflective intensity shifts. Based on the reflective intensity shifts, an optical reflection detection of formaldehyde was achieved by illuminating MIP with a laser beam. For the same MIP, the reflective intensity shift was proportional to the amount of template molecule. This optical sensor, based on an artificial recognition system, demonstrates long-time stability and resistance to harsh chemical environments. As the research moves forward gradually, we establish the possibilities of quantitative analysis primly, setting the groundwork to the synthesis of the molecular imprinted optical fiber sensor. The techniques show good reproducibility and sensitivity and will be of significant interest to the MIPcommunity.     

Chemical Reactions in the Manufacture of Waveguides for Long Distance Optical Data Transmission

One of the modern high technologies which has advanced enormously in the last few years is glass fiber technology. This is used in the manufacture of glass fibers for lighting purposes and for the optical transfer of analog and digital data with a high transfer density. The technical demands made on the glass fibers required for data transfer, the optical waveguides, are extremely high and are already fulfilled to a large extent by industry. At present about four million kilometers of fiber, worth ca. 800 million DM are produced worldwide (10% in the Federal Republic of Germany). Numerous chemical processes take place during the manufacture of optical waveguides. However, in contrast both to the high and constantly growing demands on the quality and to the increasing production volume of such fibers, little is in fact known about the reactions involved. The present article will attempt to develop a picture of the multifarious reactions occurring in the course of this technical process on the basis of literature data and our own studies.