银离子

yín lí zǐ
  • silver ion
银离子银离子
银离子[yín lí zǐ]
  1. PVP与银离子形成络合离子,控制游离银离子的浓度,影响银的成核与生长。

    The concentration of free silver ion was controlled by polyvinyl pyrrolidone ( PVP ) by the formation of complex .

  2. XRD、XPS、AES分析的结果表明银离子注入没有影响TiN(111)择优取向。AES深度分析计算表明TiN膜厚约为4920nm。

    XRD , XPS , AES analysis indicates that , silver ion implantation has not affected on the ( 111 ) prefered orientation , the thickness of TiN is about 4920 nm by means of AES depth analysis .

  3. 银离子注入多晶α-Fe的低周疲劳研究

    Study on the Low Cycle Fatigue of Polycrystalline Alpha-Iron Implanted with Ag  ̄ + Ions

  4. 银离子注入对TiN薄膜和热解碳抗菌性能的影响

    Effect of Silver Implanted to TiN Film and Pyrolytic Carbon on Antibacterial Properties

  5. 银离子导体在透射电镜(TEM)观测过程中的银丝生长

    Silver Filament Growth on Silver Ionic Conductor During TEM Observation

  6. 当GOD被银离子抑制时,在受抑制的酶再生前后引入葡萄糖进行电化学检测。

    When GOD was inhibited by silver ions , Glucose was introduced for electrochemical measurements before and after inhibited enzyme regeneration .

  7. 在第四章中报道了一种基于银离子(Ag+)和胞嘧啶(C)之间的特异性识别的无标记的荧光检测方法,用来检测银离子。

    In the fourth chapter , we reported a maker-free fluorescence method for silver ions which is based on specific recognition between silver ions and cytosine .

  8. 铜、银离子协同游离氯杀灭水中大肠杆菌及f2的实验

    Synergetic effect of copper and silver ions with free chlorine on the inactivation of Escherichia coli and coliphage f 2

  9. 掺银离子TiO2薄膜的结构及与不锈钢基板的界面反应

    Microstructure of antibacterial film and the interface reaction to the stainless steel

  10. 用ICP-AES研究茶碱负载树脂对银离子的吸附行为

    Study on Adsorption Properties of Silver Ion on Theophylline Loaded Resin with ICP AES

  11. 关于银离子复方消毒剂对菌体内DNA的作用位点及如何损伤DNA双链结构,则有待于进一步的研究。

    Further research should be done to evaluate the advanced effects of silver ions on the DNA in the bacteria , and its ability in killing bacteria .

  12. 添加剂铜和银离子对MnO2催化燃烧CH4的影响

    The Effects of Additive Cu and Ag Ions on MnO 2 for Catalytic Combustion of Methane

  13. AFM图像显示:壳聚糖分子和加过金属银离子的壳聚糖分子在聚集生长过程呈现为传统的具有分形特征的正态分布和奇异分布;

    AFM images show that chitosan aggregates and those absorbs Ag ~ + with fractal characteristics of traditional normal distribution and singular distribution .

  14. 结果表明:当溶液的pH值为5时,壳聚糖和银离子的质量比为1000:1时,可以制得性能稳定的抗菌剂。

    The results show that the stable chitosan-Ag + antibacterial composite sol can be obtained when the mass ratio of chitosan to Ag + is 1000:1 and the pH value is kept at 5 .

  15. 主要内容归纳如下:1、基于AFM成像技术研究银离子对细菌的影响。

    The main researches are summarized as follows : 1 . The effect of silver ions on bacteria was investigated using AFM imaging technique .

  16. 利用AFM大气氛中轻敲模式对银离子作用革兰氏阴性菌大肠杆菌和革兰氏阳性菌表皮葡萄球菌进行了表征。

    Gram-negative Escherichia coli and Gram-positive Staphylococcus epidermidis cells after treatment with silver ions were imaged in ambient air with a tapping mode AFM .

  17. 利用电子探针、X射线吸收近边结构谱、透射电子显微镜和高分辨透射电子显微镜研究了银离子在玻璃中的扩散、还原和生长机理。

    Electron probing , X-ray absorption near-edge structure , transmission electron microscopy and high-resolution transmission electron microscopy were used to study the diffusion , redox and growth processes of the Ag ions in the glass matrix .

  18. 结果表明纳米金棒的形貌和产率可以通过调整溶液中CTAB和银离子浓度之间的相对比例进行有效的调控。

    Results indicated that the morphology and yield of nanorods produced were effectively controlled by adjusting the molar ratio of CTAB to silver ions .

  19. 以CaO为载体的抗菌材料,银离子的较佳掺入量为4%~8%,较佳的烧结温度范围为1000~1200℃。

    The better quantity of doped-Ag in antibiotic material carried by CaO was 4 % ~ 8 % and the better sintering temperature range was 1000 ~ 1200 ℃ .

  20. 利用pH电位滴定法、电泳法,计算了银离子与氨基酸相互作用的逐级稳定常数,以及各氨基酸的离解常数和氨基酸-银体系的电动电位。

    The dissociation constants of amino acids , stability constants of amino acid-silver ( I ) coordination complexes , electrokinetic potential of amino acid-silver ( I ) system are calculated by pH electromeric titration , electrophoresis methods respectively .

  21. 傅立叶转换红外光谱(Fouriertransforminfrared,FTIR)结果表明桑叶中的多羟基成分和蛋白质残基分别起到还原银离子和稳定银纳米颗粒的作用。

    From the results of Fourier transform infrared ( FTIR ) spectroscopy , it was confirmed that the polyol components and protein residues were mainly responsible for the reduction of silver ions and stabilization of silver nanoparticles , respectively .

  22. 结果发现,在六种载体中,以DBP为增塑剂的载体L3~L6对银离子表现出很好的选择性能。

    The better results have been obtained with membranes containing ligands L3 ~ L6 with dibutyl phthalate ( DBP ) as a plasticizer .

  23. 银离子在具有不同氧化状况的Si-NPA表面呈现位置选择性沉积。

    Site-selective immersion plating of silver on Si-NPA which has different oxidation status on surface is observed .

  24. 铜离子改性后的TS-1表现出较好选择氧化脱除噻吩效果,且优于银离子改性的催化剂。

    The Cu modified TS-1 will enhance the selectivity of thiophene in model gasoline containing octene too . The Cu modified catalyst performs better than the Ag modified one .

  25. 采用银离子对催化剂进行改性,银改性的TS-1对噻吩的吸附性能高于对烯烃的吸附,提高了催化剂在烯烃存在时对噻吩的选择性。

    The Ag modified TS-1 will enhance the selectivity of thiophene in model gasoline containing octene . Ag modified TS-1 shows better adsorption performance for thiophene than for n-octene .

  26. 当ALP酶催化AA-P水解生成抗坏血酸以后,银离子在电极的表面被还原。

    Following with the catalytic hydrolysis of AA-p conduced by ALP , silver ions was reduced and deposited on the electrode .

  27. AFM成像获得的结果对于认识细胞表面结构和功能之间的关系具有重要的意义,同时为研究银离子的抗菌机理提供了有价值的微观形态学信息。

    The above investigation of AFM imaging is important in understanding the relationship between structure and function of microbial cell , and provides useful morphologic informations for understanding the antibacterial mechanism of silver ions . 2 .

  28. 本文报道了一种电流型银离子玻璃固态电解质NO2气敏传感器,该传感器可在室温下工作;

    This paper deals with an amperometric sensor that was constructed using a novel Ag + ion conducting glass system as the solid electrolyte for the detection of NO 2 gas .

  29. 为了制备具有抗菌特性和良好耐腐蚀性的医用不锈钢,通过离子注入方法,在镀有TiN薄膜的医用不锈钢317L上注入银离子。

    In order to make medical stainless steel of good antibacterial and anticorrosive properties , Ag ion is implanted into medical stainless steel 317L with TiN film by way of ion implantation .

  30. CLA的合成包括化学法和生物法两大类,CLA的分析主要采用气相色谱法(GC)、银离子-高效液相色谱法(Ag+-HPLC)和核磁共振法(NMR)。

    Synthesis of CLA includes chemical and biological methods . CLA are analyzed by using gas-liquid chromatography ( GC ), silver-ion high - performance liquid chromatography ( Ag + - HPLC ) and nuclear magnetic resonance ( NMR ) .