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二茂铁硫醇自组装膜的电化学行为及其离子对效应 总被引:5,自引:4,他引:5
详细了研究10-二基铁-1-癸硫醇(HSC10Fc)在金基底上形成的自组装单分子膜的电化学行为,发现HSC10Fc在金基底上形成稳定的自组装膜,并且在0.1mol/L的HClO4溶液中表现出可逆的氧化还原行为,但其氧化还原峰的峰形和峰位极易溶液中阴离子种类和浓度的影响,考察了二茂铁自组装膜及通过后置换形成的二茂铁硫醇/十二烷基硫醇混合膜在混合电解液中的电化学行为,直接比较了两种不同阴离子与二茂铁阳 相似文献
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电化学组装法制备对-巯基苯胺/聚苯胺纳米有序导电聚合物膜 总被引:11,自引:1,他引:10
提出了制备二维纳米有序有机导电聚合物膜的新方法--电化学组装法,应用该方法在电位脉冲的作用下使苯胺聚合到对-巯基苯胺修饰的金电极上,获得了致密、有序的对-巯基苯胺/聚苯胺(p-aminothiolphenol/polyaniline,PATP/PANI)导电寡聚物薄膜.用STM研究了Au(111)/PATP、Au(111)/PATP/PANI膜表面的二维有序性,用SERS谱表征了Au(粗糙表面)/PATP、Au(粗糙表面)/PATP/PANI膜的结构和成分,并以[Fe(CN)6]3-/[Fe(CN)6]4-为探针研究了其电子传递性能.结果表明用电化学组装法制备的PATP/PANI膜在纳米尺度上是二维有序的,且具有良好的电子传递性能. 相似文献
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研究了正、叔十二烷基硫醇在铜表面上的自组装及混合自组装成膜情况,并利用交流阻抗和极化曲线电化学方法测试了正、叔十二烷基硫醇在铜表面上自组装膜及混合自组装膜对铜的耐腐蚀性,考察了正十二烷基硫醇自组装膜质量与正十二烷基硫醇溶液的浓度及组装时间的关系。研究结果显示,混合自组装膜的质量及其对铜的耐腐蚀性比仅组装正或叔十二烷基硫醇均有很大的提高。 相似文献
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银纳米粒子自组装结构的光谱性质研究 总被引:4,自引:0,他引:4
采用自组装方法在玻璃基底表面上构筑了银纳米粒子二维亚单层结构, 进而以对巯基苯胺为耦联分子进行银粒子的二次组装, 构成具有分子尺寸间隙的银粒子簇. 银粒子表面等离子体共振依赖于粒子间距、表面吸附分子和粒子组装方式. 同层内的银粒子相互间电磁偶合可导致银粒子偶极子等离子体共振蓝移; 对巯基苯胺的吸附则使得表面等离子体共振红移. 表面增强拉曼光谱结果表明, 具有分子尺寸间隙的银粒子簇对耦联于粒子间的对巯基苯胺分子的拉曼散射具有极大的增强效应, 同时也使耦联的对巯基苯胺与银粒子间产生更大程度的电荷转移. 相似文献
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采用自组装方法,分别以1,4-二巯基苯和对巯基苯胺为偶联分子,在光滑银基底表面上构筑了银纳米粒子的单层和双层有序结构.表面增强拉曼光谱研究表明,在有序银纳米粒子组装体中偶联分子的拉曼散射得到很大增强,其中1,4-对巯基苯的拉曼散射增强效应主要来自光滑银基底表面与单层银纳米粒子间的电磁耦合,而对巯基苯胺的拉曼散射增强效应则主要由两层银纳米粒子之间耦合作用所致.两种不同的耦合作用所产生的增强效应大致相近. 相似文献
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电流滴定法对两种短链分子自组装膜的研究 总被引:1,自引:0,他引:1
把带有—NH2的半胱胺和4-氨基硫酚两种短链分子组装到金电极上,形成自组装单分子膜;两种自组装膜在[Fe(CN)6]3-/4-溶液中进行循环伏安扫描时,出现了不同于长链分子自组装膜的行为:峰间距变窄、峰电流变大的现象,这是由于两者在金上组装不够致密,以及末端的—NH2存在对[Fe(CN)6]3-/4-的影响造成的。通过改变溶液的pH,研究溶液中H 浓度对半胱胺自组装膜和4-氨基硫酚自组装膜在[Fe(CN)6]3-/4-溶液中电化学行为的影响;通过电流滴定的方法求算出半胱胺自组装膜和4-氨基硫酚自组装膜的表面pKb分别为2.4±0.2和4.7±0.2;通过在碱性条件下的循环伏安图,对两者的组装效果进行了比较。 相似文献
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Two complemental 2′-phosphorothioate oligo-DNA compounds were used as linker molecules to provide the necessary symmetry-breaking mechanism to direct the assembly of 13 nm Au nanoparticles into aggregates with anisotropic optical properties. 相似文献
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A three complementary strand oligonucleotide system was employed to assemble two different‐sized, 15 and 25 nm, Au nanoparticles into binary two‐dimensional (2D) structures. First, two non‐complementary strands of phosphate backbone modified oligonucleotides (PM oligo‐DNA) were loaded on the surface of the 15 and 25 nm Au nanoparticles, respectively. Upon the addition of the third linker DNA, which was half complementary to each of the modified DNA, the Au nanoparticles would be assembled to binary 2D aggregates. The number of the 15 nm Au nanoparticles around a 25 nm Au naoparticle can be readily controlled by the length of the DNA helix used. 相似文献
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Self-assembled monolayers (SAMs) based on oligopeptides have garnered immense interest for a wide variety of innovative biomedical and electronic applications. However, to exploit their full potential, it is necessary to understand and control the surface chemistry of oligopeptides. Herein, we report on how different electrical potentials affect the adsorption kinetics, stability and surface coverage of charged oligopeptide SAMs on gold surfaces. Kinetic analysis using electrochemical surface plasmon resonance (e-SPR) reveals a slower oligopeptide adsorption rate at more positive or negative electrical potentials. Additional analysis of the potential-assisted formed SAMs by X-ray photoelectron spectroscopy demonstrates that an applied electrical potential has minimal effect on the packing density. These findings not only reveal that charged oligopeptides exhibit a distinct potential-assisted assembly behaviour but that an electrical potential offers another degree of freedom in controlling their adsorption rate. 相似文献
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Itiswellknownthatelectrochemicaloxidationofanilinedissolvedinelectrolytesolutionsisaveryusefulmethodforpreparingpolyanilinefilmsonelectrodes'.However,itisverydifficultforthismethodtoprepareauniformmonolayerpolymersincelocalnucleationandgrowthofpolyme... 相似文献
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Peng DIAO Min GUO Ru Ting TONG* Department of Chemistry Hebei Teacher''''s University Shijiazhuang Department of Traditional Chinese Pharmacy Traditional Chinese Medicine College Hebei Medical University Shijiazhuang 《中国化学快报》2000,11(12)
Interest in the properties of organized monolayers has grown enormously in recent years because these monolayers can provide a means to control the interface at a molecular level1. The self-assemblies of alkanethiols and their derivatives were probably the most intensively studied due to their stability, well-packed structure, ease in preparation, and flexibility in designing the tail group2. The adsorption kinetics of thiol monolayer has been studied by using several techniques, including con… 相似文献