牙冠表面三维光学测量和重建方法

选取光栅变形条纹直接分析方法,采用自制的牙冠表面形状三维测量仪和精密可调转台获得了上颌中切牙和下颌磨牙牙冠各个面的三维测量数据,将各面数据在UniGraphic软件平台上通过旋转坐标拍的方法实现数据拼合,重建了牙冠表面的三维形态,生成了牙冠实体模型。     

半导体晶片Fe/Ni玷污的紫外荧光谱研究

针对Si,GaAs半导体晶片中金属杂质玷污的问题,本文提出了紫外光致荧光谱的检测方法。常温下,晶片中的Fe,Ni杂质玷污可产生紫外特征荧光峰。这种新的检测方法是非破坏性的,并适用于φ76.2mm,φ100mm大圆片的直接检验,而且具有较高的检测灵敏度。     

5-羧基偶氮胂Ⅰ测定铍的研究

本文研究了试剂5-羧基偶氮胂I与铍的显色反应。试剂与铍在557nm形成1∶1络合物,其反应的酸度pH为5.3～6.2,毫克量级的干扰离子存在不干扰测定。该试剂可不加任何掩蔽剂,直接测定水样及锌基合成样中的铍。     

Electrocatalytic Behavior of Metalloporphyrins(Ⅶ)——Kinetic Study of Cysteine Oxidation on Heat-Treated Cobalt Tetramethoxyphenyl Porphyrin Adsorbed on Graphite

The metnoas or rotating ring-disc electrode(RRDE) ana cyclic voltammetry were used to study the oxidation of cgsteine on heat-treated cobalt tetramethoxyphenyl porphyrin adsorbed on graphite(Co-TMPP/graphite) in solutions of various pH.Experimental results showed that Co-TMPP/graphite exhibits significant catalytic activity for cysteine oxidation in solutions with various pH.The current efficiency of cysteine oxidation on Co-TMPP/graphite in basic media is more than 90%.It was found that the kinetics of cysteine oxidation on Co-TMPP/graphite is a simple irreversible reaction controlled by rate of charge transfer.The standard rate,constants(k) of cysteine oxidation were calculated and the reaction mechanism of this reaction in solutions of various pH wes discussed.     

Cn(0,1)中B—调和函数的等价条件

在文[1]中指出:如果定义在Cn(0,1)的特征流形上的实可积函数φ(σ)是Cn(0,1)中某B—调和函数的极限,那末它必须满足如本文(2)式所示的可数集条件。在这篇文章里,假定φ(σ)满足H(?)lder条件,证明这个可数集条件是充要条件,并且得到了它的另外二个等价条件。     

The Enhanced Second‐Harmonic Generation Based on Magnetic‐Lorentz‐Force Effect

Electromagnetic coupling generates a second‐harmonic signal via the magnetic component of Lorentz force of free electrons. In this work, the enhancement of artificial second‐harmonic generation (SHG) from plasmonic metamaterial with near‐field electromagnetic coupling is theoretically investigated by performing numerical simulations in both frequency and time domains. Simulation results demonstrate that a small gap between the near‐field electric dipole and magnetic resonators could increase the electromagnetic coupling and the SHG signal. In addition, the longer the near‐field electric dipole resonator, the stronger the SHG signal emits. By tuning the geometrical parameters, it has been verified that near‐field electromagnetic coupling results in enhancement of magnetic resonance, thereby improving the SHG signal by more than 3.4 times. This research paves a way toward the design of artificial nonlinearity with metamaterials.     

Photocatalytic properties of porous C-doped TiO2 and Ag/C-doped TiO2 nanomaterials by eggshell membrane templating

Porous organic carbon-doped titania (C-TiO₂) nanomaterials and their composites with Ag nanoparticles (Ag/C-TiO₂) were synthesized by an eggshell membrane templating method, and their structural and photocatalytic properties were systematically characterized. These nanomaterials, exhibiting a macroscopic morphology of a thin film, are composed of interwoven tubes, and the tube wall consists of nanocrystals. The doped organic carbon was composed of the active carbon and carbonate species, which could form a layer around the surface of TiO₂ nanoparticles, while the silver was incorporated into Ag/C-TiO₂ composites as separated Ag nanoparticles. The degradation of methylene blue under visible light irradiation was employed to evaluate the photocatalytic activity of these as-prepared TiO₂-based materials. Both C-TiO₂ and Ag/C-TiO₂ nanomaterials showed higher photocatalytic activity than pure TiO₂ material–commercial Degussa P25. These results can be accounted for the coupling effect of the incorporation of carbon species and Ag nanoparticles.     

A facile method to synthesize nitrogen and fluorine co-doped TiO2 nanoparticles by pyrolysis of (NH4)2TiF6

The nitrogen and fluorine co-doped TiO₂ (N-F-TiO₂) nanoparticles of anatase crystalline structure were prepared by a facile method of (NH₄)₂TiF₆ pyrolysis, and characterized by thermogravimetry-differential thermal analysis (TG-DTA), X-ray diffraction (XRD), transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS), and ultraviolet visible (UV-Vis) spectroscopy etc. With the increase of calcination temperature, (NH₄)₂TiF₆ decomposed into TiOF₂ and NH₄TiOF₃ at first, and then formed anatase-type TiO₂ with thin sheet morphology. H₃BO₃ as oxygen source can promote the formation of anatase TiO₂, but decrease the F content in the N-F-TiO₂ materials due to the formation of volatile BF₃ during the precursor decomposition. The photocatalytic activity of the obtained N-F-TiO₂ samples was evaluated by the methylene blue degradation under visible light, and all the samples exhibited much higher photocatalytic activity than P25. Moreover, the merits and disadvantages of this proposed method to prepare doped TiO₂ are discussed.     

用一维光子带隙结构增强硫化镉双光子吸收研究

用真空镀膜方法制备了含有单个CdS缺陷层的具有不同周期和结构参量的TiO2／SiO2一维光子晶体。用抽运一探测技术研究了CdS缺陷层的双光子吸收（TPA）现象。实验结果表明：一维光子晶体中CdS缺陷层的双光子吸收显著增强。不同周期和结构参量的一维光子晶体中CdS缺陷层的双光子吸收系数不同。双光子吸收的增强来源于由光局域化导致的缺陷层的电场强度的增加。缺陷层电场强度与一维光子晶体的结构有关,如周期,光子带隙的位置与宽度及缺陷模式等因素都会影响缺陷层电场强度。采用四分之一波长的高低折射率介质层和与入射波长匹配的缺陷模可以得到最大的缺陷层电场强度。     

无机纳米粒子的生物合成

无机纳米粒子的生物合成是指利用自然界中细菌、放线菌和真菌等微生物或一些高等植物在常温、常压下合成无机纳米粒子,不需使用有毒化学原料或不产生有毒副产品。该方法不仅是一种绿色的、环境友好的新型纳米材料合成策略,而且对深入了解生物矿化机理以及从理论上指导先进功能材料的设计和合成具有重要意义,因此近年来受到了化学、材料、生物科学等领域研究者的广泛关注。本文根据纳米粒子组成,分别综述了国内外利用生物体合成金属、硫化物和氧化物等无机纳米粒子的研究进展,重点讨论了生物合成的机理。结果表明:生物合成的无机纳米粒子具有尺寸分布窄、稳定性高、生物相容性好、产率高和成本低等优点; 为了适应高金属离子浓度的外界环境,生物体往往通过吸附、还原或沉淀、累积或排出等一系列生化过程改变金属离子的溶解性和毒性,从而导致无机纳米粒子的形成; 合成无机纳米粒子后,微生物通常仍具有繁殖能力,表明这些微生物可以被用于生产无机纳米粒子的生物工厂。然而,生物合成无机纳米粒子涉及到的生理过程非常复杂,微生物种类繁多,不同种类之间的差异也非常大。因此,在阐释生物合成机理、拓展纳米材料的种类和形貌、纳米粒子的后处理和应用等问题上仍需进一步深入研究。