阳离子交换树脂分离—偏最小二乘光度法测定地质样品中的金,铂,…

本文采用阳离子交换树脂分离地质样品中的贱金属元素，利用偏最小二乘回归光度法在Ｍｎ＾＋－ＳｎＣｌ２－丁基罗丹明Ｂ－阿拉伯胶－乳化剂ＯＰ高灵敏的离子缔合物体系中对金、铂、钯、铑同时进行测定。结果表明，该方法灵敏度高，操作简便，可同时测定地质样品中痕量贵金属元素金、铂、钯、铑，其标准回入回收率为９２．４％￣１０７％。     

β－环糊精含硫衍生物自组单分子膜修饰金电极的选择穿透性研究

β－环糊精含硫衍生物自组单分子膜修饰金电极的选择穿透性研究何品刚，方禹之，铃木，嚴长，哲郎（华东师范大学化学系，上海，２０００６２）（东北大学药学部，仙台９８０，日本国）关键词硫辛酰－β－环糊精衍生物，自组单分子膜，金电极近年来，为在分子水平上控制和...     

新试剂N-苯基-N′-(氨基对苯磺酸钠)硫脲的合成及其在微量金(Ⅲ)测定中的应用

介绍了新试剂N 苯基 N′ (氨基对苯磺酸钠 )硫脲 (PPT)的合成方法。并研究了与金的显色条件 ,建立了光度法测定微量金的新方法。在pH 5 .0～ 5 8的HAc NaAc缓冲体系中 ,在溴化十六烷基三甲胺 (CTMAB)存在下 ,Au(Ⅲ )与PPT形成组成比 1∶3的黄色水溶性络合物 ,其最大吸收峰位于 31 7.0nm ,表观摩尔吸光系数ε=3.68× 1 0 4 L/mol·cm ,Au(Ⅲ )含量在 0～ 80 μg/2 5mL范围内服从比尔定律。     

室温CO催化氧化反应动力学的研究

本文采用无梯度反应器,考察了纳米金催化剂以及其它商品化的催化CO氧化催化剂,在不同CO浓度下催化CO氧化反应的转化率和反应速率,证明在CO初始浓度从ppm到pct数量级范围内,纳米金催化剂具有最好的催化CO室温转化的能力.     

纳米金生物探针及其应用

纳米技术与生物技术的融合,使纳米生物技术获得了很多重要的进展.纳米金作为研究较早的一种纳米材料,其在纳米生物探针方面的应用是最近几年较为活跃的研究方向.本文评述了近年来纳米金探针在生物分析中的应用及进展,阐述了纳米金与生物大分子作用的机理,介绍了纳米金探针在核酸分析、免疫分析、单细胞分析和靶向药物载体4个方面应用的最新进展,并对其未来的发展方向进行了展望.     

金(Ⅲ)与某些中性氧配体(RnXO)形成的配合物及其表征

合成了金(Ⅲ)与七种中性氧配体RnXO(R=辛基或苯基;X=N,P,As和S;n=2,3)形成的十种配合物,可概括为两种类型:H(RnXO)x·AuCl_4·Sy(RnXO=TONO、TOPO、TPPO、DOSO、DPSO、TPAsO和bipyO_2;S=乙醇或水;x=1,2,3,y=0,1,2或3)和[Au(L)X_2](L=bipyO_2;X=Cl或Br)。用元素分析、摩尔电导、紫外和红外光谱、核磁共振和热重分析等方法测定了它们的组成和性质,并对其可能的结构也进行了讨论。     

2-HBR负载树脂分离富集金的研究及其分析应用

本文探讨了２－羟基苄叉罗丹宁（２－ＨＢＲ）负载树脂对金的吸附性能及用ＡＡＳ吸附金的酸效应、吸附动力学、吸附机理、吸附热力学、动态试验等。     

Molecular Dynamics Simulation of the Self-assembled Monolayers of 1-Adamantanethiolate and Its Derivatives on Au（111） Surfaces

The self-assembled monolayers （SAMs） of 1-adamantanethiolate and its derivatives on Au（111） surface were investigated. Density functional theory （DFT） calculation indicates that the most stable configuration for absorption is at the face centered cubic （fcc）-bridge site. Canonical ensemble molecular dynamics （MD） simulations were carried out to study the structures and energies of the SAMs. The ordered structures of the SAMs were analyzed by means of radial distribution function and the relative stability of the SAMs was compared. It was concluded by the comparison of various contributions to the SAM formation energy that the formation of the SAMs was determined by the intermolecular nonbonding interaction and the chemical bonding interaction of sulfur and gold.     

A New Amperometric Biosensor Based on HRP/Nano-Au/L-Cysteine/Poly（o-Aminobenzoic acid）-Membrane-Modified Platinum Electrode for the Determination of Hydrogen Peroxide

The third generation amperometric biosensor for the determination of hydrogen peroxide （H2O2） has been described. For the fabrication of biosensor, o-aminobenzoic acid （oABA） was first electropolymerized on the surface of platinum （Pt） electrode as an electrostatic repulsion layer to reject interferences. Horseradish peroxidase （HRP） absorbed by nano-scaled particulate gold （nano-Au） was immobilized on the electrode modified with polymerized o-aminobenzoic acid （poABA） with L-cysteine as a linker to prepare a biosensor for the detection of H2O2. Amperometric detection of H2O2 was realized at a potential of ＋20 mV versus SCE. The resulting biosensor exhibited fast response, excellent reproducibility and sensibility, expanded linear range and low interferences. Temperature and pH dependence and stability of the sensor were investigated. The optimal sensor gave a linear response in the range of 2.99×10^-6 to 3.55×10^-3 mol·L^-1 to H2O2 with a sensibility of 0.0177 A·L^-1·mol^-1 and a detection limit （S/N = 3） of 4.3×10^-7 mol·L^-1. The biosensor demonstrated a 95% response within less than 10 s.