用光化学方法制备金纳米颗粒。
金纳米颗粒作为一种性能优异的标记物应用广泛。
Gold nanoparticle has been widely used as a good labeling substance.
金纳米颗粒的共振峰会由于化学成键效应而改变。
The resonant peak of the gold nanoparticle will change due to the chemical bonding effect.
综述了近年来单分散球状金纳米颗粒的合成研究进展。
In this paper, the preparation methods of spherical monodisperse gold nanoparticles are reviewed.
该传感器使用金纳米颗粒层修饰的金电极为传感基底。
The sensing substrate was prepared using a gold electrode modified with a gold nanoparticle film.
金纳米颗粒(GNP)探针正引起科学家们越来越多的兴趣。
Gold nanoparticle (GNP) probes have aroused more and more interest recently.
当金纳米颗粒的高度较大时,共振波长较短并且共振峰半高宽较小。
Larger height corresponds to smaller LSP resonance wavelength and narrower resonance peak.
实验结果表明适量的拉曼标记分子可诱导形成可控、稳定的金纳米颗粒聚集体。
Experimental results indicate that proper amounts of the reporter molecules can result in the moderate aggregation morphologies of gold nanoparticles.
科学家首先在金纳米颗粒上结合了胺聚合物,然后再分别结合上染料分子、目标分子、叶酸等。
The researchers start out by synthesizing gold nanoparticles within amine-terminated dendrimers. Next, dye molecules and a targeting molecule, folic acid, are attached to the ends of the dendrimers.
此外,占空比对金纳米颗粒阵列的灵敏度有重要影响并且当占空比为0.4时灵敏度的值是最大的。
Moreover, duty cycle is important for sensitivity, which is largest when the duty cycle is 0.4.
这个小组实现了在垂直金催化剂层方向上准直生长的氧化锌(ZnO)纳米线,然后仅仅在纳米线阵列顶端沉积由导电金纳米颗粒组成的连续薄膜。
The team grew vertically-aligned ZnO nanowire arrays on gold catalyst layers before depositing a contiguous film consisting of conductive gold nanoparticles exclusively on top of the nanowire array.
纳米金颗粒具有独特的物理、化学性质和良好的生物兼容性,已广泛应用于生命科学研究中的示踪技术。
The nano-gold particles which feature unique physical, chemical property and biological compatibility, has been widely used in the tracer technology in life science research.
同时利用筛选得到的肺癌肿瘤标志物a适配子和纳米金颗粒建立一种快速检测NSE抗原的方法。
A rapid method for the detection of NSE antigen were established through the selection of tumor markers of lung cancer and gold nanoparticles.
纳米金颗粒具有独特的物理、化学性质及生物相容性,在仿生工程中有许多重要的应用。
Nanogold particles have particular physical, chemical properties and biocompatibility, which lead to many important applications in biomimetic engineering.
通过透射电镜、激光粒度分布仪等测定了纳米颗粒的粒径和分布情况,并对纳米金溶胶的紫外可见吸收曲线进行了研究。
The particle size and distribution were determined by transmission electron microscopy and laser particle size distribution analyzer, ultraviolet-visible absorption curve was also characterized.
相关金微阵列电极电镀的交流电阻抗实验也说明纳米颗粒的沉积对于降低电极体阻抗及增大表面活化处理的作用。
The relative AC impedance results also proved the deposition of platinum nanoparticles was beneficial for lower electrode body impedance and better surface activation treatment.
枸橼酸钠还原法制备纳米金颗粒。
Gold nanoparticles were prepared through sodium citrate reduction.
这两种多层膜经透射电子显微镜和小角X射线衍射测量证明构成多层膜的单层膜上的纳米金颗粒是有序的,并且颗粒在层与层之间的排列也是有序的。
The two multilayers had ordered particles both on planes and in layer by layer, which were confirmed by TEM images and small-angle X-ray diffraction measurement.
量子点、多孔二氧化硅纳米颗粒、纳米金棒是具有优良光学特性的新型纳米颗粒。
Quantum dots, mesoporous silica nanoparticles and gold nanorods are novel nanoparticles with excellent optical characteristics.
纳米颗粒金能提高视黄醛仿生膜的光电响应电流和寿命。
Photoelectric current and lifetime of vision mimetic retinal membrane has also been much improved by addition of nanometer…
通过液相还原法制备出金-银复合纳米颗粒。
Ag-coated Au composite nanoparticles are prepared via solution-phase reduction method and clearly observed by TEM.
良好的光学和化学能力揭示了纳米金颗粒在细胞成像作为对比剂的潜力。
Their excellent optical and chemical properties make gold NPs an attractive contrast agent for cellular imaging.
纳米颗粒金能提高视黄醛仿生膜的光电响应电流和寿命。
Photoelectric current and lifetime of vision mimetic retinal membrane has also been much improved...
碳基底上的纳米级金颗粒标样,该标样可进行扫描电镜的分辨率和成像质量的检测和校正。
These gold on carbon (Au/C) calibration standard samples have been specifically produced to enable high resolution capabilities of all kinds of high-end field emission scanning electron microscopes.
碳基底上的纳米级金颗粒标样,该标样可进行扫描电镜的分辨率和成像质量的检测和校正。
These gold on carbon (Au/C) calibration standard samples have been specifically produced to enable high resolution capabilities of all kinds of high-end field emission scanning electron microscopes.
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