一种新的橙红色长余辉荧光材料Y2O2S∶Sm3+

铜激活的硫化锌(ZnS∶Cu)和铕激活的硫化钙(CaS∶Eu)是最早获得应用的蓝色和红色长余辉材料. 随后, 相继发现了铝酸盐体系和硅酸盐体系两大类长余辉荧光材料[1～3]. 这两类长余辉荧光材料在发光亮度、余辉时间、稳定性方面都较前述硫化物系列长余辉荧光材料有很大提高, 从而具有非常广阔的应用前景和应用范围[4～6]. 但这两类长余辉荧光材料的发光颜色一般为蓝紫、蓝或黄绿, 没有红色发光现象. 随着研究的深入, 人们发现了稀土元素激活的碱土钛酸盐红色长余辉荧光材料, 这种荧光材料在发光亮度及余辉上都有明显的提高[7,8], 而且解决了硫化物不稳定的缺点. 近年来才发展起来的以碱土金属氧化物为发光基质, 以Eu3+为激活剂的红色长余辉荧光材料进一步提高了余辉亮度及时间[9].     

碱土铝酸盐长余辉发光材料的有机包覆及其表征

碱土铝酸盐长余辉发光材料的有机包覆及其表征;发光粉;包覆;甲基丙烯酸甲酯;硅烷偶联剂     

新型红色荧光粉Sr3Al2O6的合成和发光性能研究

稀土金属离子激活的多铝酸盐发光材料，在可见光区具有较高的量子效率犤１～４犦，充分显示出这类荧光发光材料，在高效节能、环保、电光源与新一代可见光显示器领域的应用前景犤４～９犦。特别是SrAl２O４∶Eu２＋的持续发光现象的发现犤２，３犦，激起了对以稀土金属离子为激活剂，碱土铝酸盐为基质的长余辉无机发光材料体系的兴趣。研究表明其发光强度和余辉时间是传统硫化物发光材料的十倍以上，利用其长余辉储光－发光特性，有望开发新型发光油漆、涂料、发光陶瓷、发光塑料、薄膜、发光纸、发光纤维犤４犦。早在七十年代，荷兰菲利…     

长余辉发光材料研究进展

90年代发现和发展起来的铝酸盐体系长余辉发光材料是一类重要的新 型能源材料和节能材料。本文主要综述了最近几年来铝酸盐体系中长人科辉发光研究进展。指出了氧化物体系长余辉发光材料的特点和优势,总结了新型长余辉发光材料的基质和激活剂种类、性质及其对稀土 离子 长余辉发光性能的影响和作用,概括了长余辉发光模型,并提出了今后研究和应用的发展方向。     

长余辉发光材料在陶瓷行业的应用研究

长余辉发光材料和陶／搪瓷材料的结合始于80年代,当时采用的是传统的硫化物体系长余辉发光材料。20世纪90年代,随着多种新型长余辉材料的发现,使性能更佳的长余辉陶／搪瓷制品的开发成为可能。本文介绍新型铝酸盐体系、硅酸盐体系及新型红色长余辉材料应用于低温陶／搪瓷釉料（800－900℃）、中温陶瓷釉料（980－1100℃）,及将低温陶／搪瓷釉料、中温陶瓷釉料应用于陶／搪瓷制品的研究,以及将各种新型长余辉材料应用于花纸、玻璃行业中。这种长余辉陶／瓷制品性能稳定、发光强度达到发光粉的80％,发光时间可达12h以上;而且应用工艺简单,可直接用传统的陶／搪瓷制品工艺进行生产。     

Ca/Sr对(Sr2-xCax)MgSi2O7:Eu2+,Dy3+发光性能的影响

使用高温同相法制备了不同Ca/Sr对(Sr2-xCax)MgSi2O7:Eu2+,Dy3+长余辉材料发光材料,用X线粉末衍射表征该材料的相组成,用发射光谱、初始亮度和余辉时间对材料的发光性能进行表征,用热释光技术测定材料的陷阱深度.结果表明:Ca/Sr不仅能影响材料的发射光谱,而且还影响材料的初始亮度和余辉时间,随Ca/Sr(x值)增大,该类材料的发射光谱红移,余辉时间逐渐变短,而初始亮度值先变大后变小,陷阱深度逐渐变浅;当Ca/Sr为1时,材料的发光性能最好,这和材料具有合适深度的陷阱(0.5908 ev)有关.     

水热法制备长余辉发光材料CaTiO3:Pr,Al及其发光性能

以氯化钙、四氯化钛和Pr6O11为原料,采用水热法结合煅烧制备了掺镨的钛酸钙长余辉发光材料.水热产物进行了XRD、扫描电镜、荧光光谱等表征.研究了水热条件、煅烧条件以及添加Al3+(以Al(NO3)3为原料)对CaTiO3:Pr粉末发光的影响.结果表明:直接水热即可得到具有一定余辉的CaTiO3:Pr发光材料,添加Al3+后长余辉性能显著提高.在200℃水热反应6 h可获得性能最佳的产物,最佳煅烧条件为900℃煅烧1 h.     

基于过渡金属离子Mn~(4+),Cr~(3+)的长波长余辉发光材料的研究进展

区别于稀土离子掺杂长波长余辉发光材料,过渡金属离子掺杂长波(600～1300 nm)长余辉发光材料因其稳定高效的宽带发光被应用于生物成像和药物输送等领域,特别是在生物成像领域被广泛研究。近年来,这一领域的基础研究和应用探索取得了长足的进步,但余辉性能仍然有待提高。主要以发光中心离子为线索总结了近年来报道的过渡金属离子掺杂长波长余辉发光材料,讨论了其余辉性能的优化途径,并介绍了过渡金属离子掺杂长波长余辉发光纳米探针在生物医学领域的应用。最后,对目前相关研究的发展前景进行了展望。     

基于Eu~(2+)与Sm~(3+)的几种新型多色长余辉材料

长余辉发光材料因其节能环保的特点备受人们关注,目前能够满足实际应用的只有绿色长余辉发光材料,严重缺乏具备一定性能的红、黄色等长波长发射的长余辉发光材料。此外,长余辉发光机制尚未取得共识,所提出的相关机制模型均具有一定的局限性,无法为长余辉发光材料的开发和研究提供有力的理论指导。针对上述问题,主要介绍了近期研制的几种不同余辉颜色的新型长余辉材料,并根据材料发光、余辉等特性对余辉机制进行了探讨。     

Tb~(3 )在MO(M=Ca,Sr)中的长余辉发光

长余辉发光材料的研究与应用,已有近100年的历史,目前仍在许多领域中有着重要应用[1].此类材料与其他光致发光材料具有相同的发光性能,只是更注重其发光的衰减过程和热释光性能.如,ZnS:Cu作为黄绿色的长余辉发光材料,在1992年以前是余辉性能最好的长余辉发光材料,一直处于发光研究工作的中心.     

Ag∶InP/ZnSe纳米晶的合成与生物成像

采用高温热注入法, 以P[N(CH3)2]3为磷源合成了具有近红外荧光的Ag∶InP/ZnSe纳米晶. 采用紫外|可见|近红外吸收光谱(UV|Vis|NIR)、 荧光光谱、 透射电子显微镜(TEM)、 X 射线衍射(XRD)等对产物的结构和光学性质进行了表征, 并分析了Ag掺杂浓度和温度对InP纳米晶荧光性能的影响. 通过调节Ag掺杂浓度和反应温度, 发现当Ag掺杂量为6%, 反应温度为200 ℃时, Ag∶InP纳米晶的发光效率最高. 将制备的Ag∶InP的表面包覆ZnSe, 粒子的荧光效率从原来的20%提高到45%. 将具有近红外荧光的Ag∶InP/ZnSe纳米晶应用于细胞成像, 结果表明制备的荧光纳米晶在细胞成像中清晰可见且毒性较低.     

Electrodeposition and Characterization of Polyaniline Film

Polyaniline film was prepared by electrochemical method in an acidic solution of aniline. The micromorphology of the polyaniline film was transformed to three-dimensional network structure instead of little particles while the deposition time was extended. The peak wavelength of the photoluminescence spectrum was 491 nm. The luminous intensity increased with the extension of deposition time, and so did the electrochemical activity.     

核壳结构CdS/ZnS纳米微粒的制备与光学特性

CdS and CdS/ZnS core-shell structure nano particles were synthesized in micro emulsion, and characterized by X-ray diffraction(XRD), transmission electron microscopy (TEM), UV absorption spectra and PL. The average diameter of CdS was about 3.3 nm, and CdS/ZnS core-shell structure was confirmed by XRD and UV. Considering the optical properties of CdS/ZnS core-shell structure nanoparticles which have different ZnS shell thickness, the UV absorption edge of CdS/ZnS becomes as lightred-shift with the thickness of ZnS layer increasing, and the absorption of shortwave band is strongly enhanced at the same time. The PL spectra indicate that ZnS shell layer can greatly eliminate surface defects of CdS nanoparticles and make its band-edge directed recombination increased, and the luminous efficiency of CdS is improved greatly when it has appropriate shell thickness.     

A study of light-converting composites used in white light-emitting diodes

An experimental “wedge” method was suggested for obtaining ample information on the properties light-converting composites used in light-emitting diodes. The parameter determining the luminous emittance of the composite layer is the photoluminophore mass in it. It can be optimized experimentally using the suggested procedure. The composite based on Eu-doped Sialon luminophore upon excitation at a wavelength of 450 nm exhibits the optimal luminous emittance and emission color at a specific load of approximately 5 mg cm^?2. With variation of the excitation wavelength in the interval 430–470 nm, the observed trends in the luminous emittance of the Sialon composites are preserved in a wide interval of concentrations and thicknesses of the composite layer. The luminous emittance varies in the same direction as the wavelength.     

A PHOTON COUNTING TV CAMERA EQUIPPED WITH AN IMAGE GUIDE FOR RAPID DETECTION AND COUNTING OF SINGLE BACTERIA IN A WIDE FIELD

Abstract— We developed a photon counting TV camera system, which uses an image guide consisting of tapered optical fibers, for the rapid detection and counting of microscopic sized luminous particles in a wide field. Using a luminous bacterium as a standard, we compared this image guide-coupled TV camera to a lens-coupled TV camera by determining their light collecting powers and detection abilities for single bacteria on a membrane filter. The image guide shortened the detection time by an order of magnitude, making the photon counting TV camera a practical system for rapid counting of bacteria.     

Toward Superhydrophobic Polydimethylsiloxane−Silica Particle Coatings

Hydrophobized silica nanoparticles of different sizes, from 16 to 500 nm, were used to impart roughness to a hydrophobic polydimethylsiloxane (PDMS) coating with the aim of obtaining superhydrophobic properties. The particle silanization process and the curing process of the PDMS coating were optimized to increase the contact angle (CA) of the particle containing coating. The evaluation of the coatings, by means of water CA measurements and scanning electron microscopy imaging, shows that superhydrophobicity in the adhesive rose state was achieved using combinations of two differently sized particles, with an excess of the small 16 nm ones. Superhydrophobicity in the lotus state was obtained when the filler concentration of 16 nm particles was 40 wt%, but under such conditions the coating was found to partially crack, which is detrimental in barrier applications. The preference for the rose wetting state can be explained by the round shape of the particles, which promotes the superhydrophobic rose wetting state over that of the superhydrophobic lotus state.     

Green Colorants Based on Energetic Azole Borates

The investigation of green‐burning boron‐based compounds as colorants in pyrotechnic formulations as alternative for barium nitrate, which is a hazard to health and to the environment, is reported. Metal‐free and nitrogen‐rich dihydrobis(5‐aminotetrazolyl)borate salts and dihydrobis(1,3,4‐triazolyl)borate salts have been synthesized and characterized by NMR spectroscopy, elemental analysis, mass spectrometry, and vibrational spectroscopy. Their thermal and energetic properties have been determined as well. Several pyrotechnic compositions using selected azolyl borate salts as green colorants were investigated. Formulations with ammonium dinitramide and ammonium nitrate as oxidizers and boron and magnesium as fuels were tested. The burn time, dominant wavelength, spectral purity, luminous intensity, and luminous efficiency as well as the thermal and energetic properties of these compositions were measured.     

含稀土铽(Ⅲ)配合物透明树脂的制备及性能研究

含稀土元素的有机高分子 具有稀土离子独特的光、电、磁特性,又具有有机高分子材料优良的性能,是极具潜在应用价值的功能材料,早在1963年,Wolff和Pressley首次研究以高分子为基质的稀土荧光材料,引起了人们的广泛兴趣,80年代以来,高分子链上直接键合稀土配合物的研究也引起了化学家的注意。Okamoto和李文连等在较高稀土浓度下仍可以制成透明柔韧的薄膜。而由于稀土无机物与树脂的相容性差,难以均匀地分散到树脂中,所以获得发光功能高分子体相材料十分困难,本文首次报道将几种稀土铽（Ⅲ）配合物复合于苯乙烯（St）／甲基丙烯酸（HMA）的共聚体系之中,制备了具有发光功能的透明树脂,对其相关性能进行了研究,考察了稀土元素含量、组分配比等因素对聚合物透明性和发光性能的影响,结果表明：高分子网络给稀土配合物提供了稳定的化学环境,有利于展现其优良的发光性能,同时,稀土配合物赋予了光学树脂新的功能性。     

Drying dissipative structures of the aqueous suspensions of monodisperse bentonite particles

Macroscopic and microscopic dissipative structural patterns formed in the course of drying the fractionated and monodisperse bentonite particles (plate-like in their shape) in aqueous deionized suspension and in the presence of NaCl have been studied on a cover glass. The patterns coexisted with the broad ring of the hill accumulated with the particles and with the round hills are formed around the outside edges of the film and in the center, respectively, in the macroscopic scale. By the addition of NaCl the pattern shifts from the broad ring to the round hill in the center. The spoke-like cracks, which have been observed for the suspensions of the spherical particles so often hitherto, are not observed at all for the bentonite suspensions. The characteristic convection flow of the particles and the interactions among the particles and substrate are important for the macroscopic pattern formation. Wrinkled, branch-like and/or star-like fractal patterns are observed in the microscopic scale. These patterns are determined mainly by the electrostatic and polar interactions between the particles and/or between the particle and the substrate in the course of drying.     

加压流化床流化性质的实验与模拟研究

在二维射流流化床装置中,考察了压力对颗粒和气泡运动的影响规律.通过使用摄像技术详细的记录了压力下气泡的行为,并对其进行了分析,由此解决了较高压力下测量流态化性质较为困难的问题.数值研究通过CFD双欧拉模型模拟了带有V形分布器和中心射流的二维流化床内压力对气泡大小、床的膨胀率和射流深度的影响.实验和理论结果表明,在加压状态下,射流气速和分布板气速对气泡的产生、大小及形状有不同的影响.在较高的操作压力下,射流气速增加,气泡变长;分布器气速增大,气泡则变大;射流高度随着分布器气速的增加而降低.模拟结果与实验数据吻合较好,由此该模型为研究较高操作压力下射流流化床流化性质提供了有利的工具.