液体表面的遮光效应及其应用

首次发现了液体介质表面的遮光效应,讨论了遮光半径与液体介质性质的关系.基于这一发现,建立了一种测量液体折射率的新方法,该方法具有实时、自动化、高精度等特点.     

A virtual optical probe based on evanescent wave interference

A virtual probe is a novel immaterial tip based on the near-field evanescent wave interference and small aperture diffraction, which can be used in near-field high-density optical data storage, nano-lithography, near-field optical imaging and spectral detection, near-field optical manipulation of nano-scale specimen, etc. In this paper, the formation mechanism of the virtual probe is analysed, the evanescent wave interference discussed theoretically, and the sidelobe suppression by small aperture is simulated by the three-dimensional finite-difference time-domain method. The simulation results of the optical distribution of the near-field virtual probe reveal that the transmission efficiency of the virtual probe is 10²－10⁴ times higher than that of the nano-aperture metal-coated fibre probe widely used in near-field optical systems. The full width at half maximum of the peak, in other words, the size of virtual probe, is constant whatever the distance in a certain range so that the critical nano-separation control in the near-field system can be relaxed. We give an example of the application of the virtual probe in ultrahigh-density optical data storage.     

Fabrication of Nanoparticle Pattern Through Atomic Force Microscopy Tip—Induced Deposition on Modified Silicon Surfaces

With an atomic force microscopy (AFM)tip used as a “nib” and gold colloidal particles as “ink”,patterns of gold colloidal particles have been deposited successfully from the AFM tip onto specific regions of silicon surfaces modified by bifunctional mercaptosilane,i.e.(3-mercaptopropyl)-triethoxysilane.This was used as an adhesion agent and can immobilize nanoparticles delivered from the AFM tip onto the substrate surface.     

A Novel Contactless Method for Characterization of Semiconductors：Surface Electron Bean Induced Voltage in Scanning Electron Microscopy

We present a novel contactless and nondestructive method called the surface electron beam induced voltage (SEBIV) method for characterizing semiconductor materials and devices.The SEBIV method is based on the detection of the surface potential induced by electron beams of scanning electron microscopy (SEM).The core part of the SEBIV detection set-up is a circular metal detector placed above the sample surface.The capacitance between the circular detector and whole surface of the sample is estimated to be about 0.64pf.It is large enough for the detection of the induced surface potential.The irradiation mode of electron beam (e-beam) influences the signal generation When the e-beam irradiates on the surface of semiconductors continuously,a differential signal is obtained.The real distribution of surface potentials can be obtained when a pulsed e-beam with a fixed frequency is used for irradiation and a lock-in amplifier is employed for detection.The polarity of induced potential depends on the structure of potential barriers and surface states of samples.The contrast of SEBIV images in SEM changes with irradiation time and e-beam intensity.     

Moment Method with Wavelet Expansions for Fractal Rough Surface Scattering

We study the moment method(MM) to deal with Harr wavelet basis due to the problem of electromagnetic scatering from the fractal rough surface.The vanishing moment properties and the capability of the wavelets to adjust themseves to the fractal surface lead to a sparse impedance matrix and faster computation,Compared to the measured data and the conventional MM,the result shows that the wavelet basis functions provide substantial reductions in both memory requirements and computation time.     

一种获得材料各层面红外光谱的有效工具——OMNI采样器

本文介绍了一种获得材料各层面红外光谱的有效工具－－OMNI采样器，并以麦秸、光导纤维为例，研究了它们各层面的化学成分的分布，探讨了使用OMNI采样器应注意的一些问题。     

钩藤中异钩藤碱在TLC原位的FT-SERS研究

本文报道了将薄层色谱（TLC）与傅里叶变换表面增强拉曼散射（FT－SERS）联用，获得了中草药钩藤中的异钩藤碱光谱研究的新方法。研究表明，在薄层原位，2.5μg钩藤总碱可将异钩藤碱等8种生物碱完全分离。应用薄层原位的薄层色谱傅里叶变换表面增强拉曼散射（TLC－FT－SERS）技术，获得异钩藤碱分子的特征振动谱带，进而阐述了样品分子在银胶表面的吸附模式，异钩藤碱以分子中氧化吲哚基团上N原子的孤子电子对和吲哚环π电子共同吸附于银晶体微粒表面,1.615cm^-1与芳环骨架振动和氧化吲哚N－H变形振动相关的峰获得最大增强。说明TLC－FT－SERS对中草药化学成分进行高灵敏度示踪指纹检测的可靠性和优越性。     

微乳液进样火焰原子吸收光度法测定食品中的微量锰

研究了多种表面活性剂及微乳液对火焰原子吸收光谱法测定锰的增敏作用，并选择增敏作用最强的微乳液作为锰测定的增敏试剂，拟定了测定锰的新方法。     

半胱氨酸在银基底表面吸附机理的拉曼光谱研究

以具有表面增强拉曼散射 (SERS)活性的银镜为基底 ,将半胱氨酸组装到银基底表面 ;主要通过调整氨基酸溶液的pH值控制该组装过程。利用表面增强拉曼散射光谱对半胱氨酸小分子在银基底表面的吸附方式、作用机理进行了详细的探讨和研究。结果表明 ,只有当溶液的pH值接近或高于等电点时 ,半胱氨酸分子才能以 -COO- Ag+形式被有效组装到银基底的表面 ,形成表面带有自由疏基 (-SH)的半胱氨酸单分子膜 ,从而为硒代环糊精以 -S-Se-键形式组装到上述组装体系的表面提供了可能。本文的研究将为利用分子光谱探索含硒酶活性机理和进一步提高酶活性奠定基础。     

二维组装纳米银粒子上对巯基苯胺的表面增强拉曼光谱研究

采用表面自组装方法在聚赖氨酸修饰ITO电极表面和对巯基苯胺修饰光滑银表面组装了纳米银粒子的二维结构。FT -SERS光谱结果表明 ,巯基苯胺的吸附取向垂直于金属银表面 ,其中电磁增强机理起主导作用 ,但同时也存在化学增强的贡献。纳米银粒子的“体积效应”使其与吸附分子间的电荷转移更为有利。耦联于纳米银和光滑银表面间的巯基苯胺的拉曼散射增强则与纳米银粒子和光滑银表面的耦合而导致的局部电磁场增强直接相关。