Wire metamaterial based on semiconductor matrices

In this Letter, we have presented a new approach for the fabrication of nanowire media (wire metamaterials) by electrochemical methods. A^IIIB^V porous matrices (a host medium) were prepared by anodic electrochemical etching of industrial substrates. The host medium has been filled via electrochemical deposition with a metal and by means of annealing process. We have shown that this technique can be used to fabricate a nanowire medium with unique parameters (such as aspect ratio, high electric permittivity and strong χ⁽³⁾ nonlinearity near the fundamental absorption edge of the host media). (© 2014 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

One‐step electrodeposition of amorphous carbon films containing WO3 with high conductivity and good wettability

Tungsten trioxide‐incorporated hydrogenated amorphous carbon (WO₃/a‐C:H) films have been fabricated on a single‐crystal silicon wafer by liquid phase electrodeposition using methanol as carbon source and tungsten carbonyl as incorporated reagent. The morphology, composition and structure of the films have been investigated by SEM, XPS, Raman scattering spectroscopy, Fourier transform infrared spectroscopy (FTIR) and Transmission electron microscope (TEM), respectively. The effects of WO₃ incorporation on the electrical and wetting properties were studied in detail. The characterization results showed that tungsten trioxide nanocrystalline particles with diameters in the range of 10–20 nm were homogenously embedded in the amorphous carbon films. Also, the electrical conductivity and wetting ability of the films were strongly improved due to the contribution of the tungsten trioxide. Copyright © 2010 John Wiley & Sons, Ltd.     

用于质子交换膜燃料电池抗CO的Pt-CeO2/C催化剂的制备和表征

采用一步沉淀法,制备了纳米级Pt-CeO2/C电催化剂.透射电镜和X射线衍射表征结果表明,制备的催化剂Pt颗粒均匀分散于碳载体表面,其粒径主要分布于1.5～2.5 nm.将Pt-CeO2/C催化剂制备成质子交换膜燃料电池膜电极,经循环伏安和单电池极化曲线测试发现,Pt-CeO2/C催化剂性能与Pt/C催化剂的相当.一氧...     

A combined redox-competition and negative-feedback SECM study of self-healing anticorrosive coatings

In this paper, the long-term anticorrosive efficiency of a damaged self-healing coating is studied for the first time using scanning electrochemical microscopy (SECM). In the study an epoxy-coating with embedded-capsules containing a silyl-ester is employed. The properties of the silyl-ester as a healing-agent for the protection of AA2024-T3 were evaluated by complementary SECM experiments operating in negative-feedback and redox-competition modes. The experimental approach here presented allowed for monitoring the early-stages of corrosion activity and subsequent healing mechanisms offered by the release of silyl-ester into a relatively large coating defect. This result was observed by detecting the transition of the oxygen reduction response from a redox-competition mode to a negative-feedback behavior. These measurements demonstrated that the silyl-ester is released efficiently after capsules break upon coating damage, covering relatively large areas and gradually healing the damaged-site hindering the corrosion processes and providing an effective protection for at least one month of immersion in chloride solution.     

电化学聚合-彩色图案化发光薄膜与器件制备的新方法

阐述了高发光效率的电化学聚合薄膜的制备及性质,以及电化学聚合制备彩色图案化发光薄膜及器件的方法,同时也涉及电化学聚合薄膜在修饰电极中的应用,最后探讨了目前高发光效率的电化学聚合薄膜在器件应用方面存在的问题和发展前景.     

电化学振荡反应在中药鉴定中的应用

介绍化学振荡的由来、特点以及化学振荡理论研究、化学振荡在中药鉴定中的应用进展及未来发展趋势.深化研究化学振荡机理可以建立中药新型的准确、快速、方便的质量评价体系,推动中药在国际市场的发展.     

基于纳米材料电化学生物传感器的研究进展

近年来,纳米材料在电化学生物传感器领域的研究已成为前沿性的内容.纳米材料具备优异的物理、化学、电催化等性能,加之其量子尺寸效应和表面效应,可将传感器的性能提高到一个新的水平.基于纳米材料的电化学生物传感器呈现出体积更小、速度更快、检测灵敏度更高和可靠性更好等优异性能.该文按照纳米结构的分类,综述了近几年基于以下纳米材料...     

锂离子电池正硅酸盐正极材料研究进展

正硅酸盐正极材料因其高理论容量、高安全性能、低成本及环境友好等优点,近几年引起研究者的广泛关注.本文综述了国际上正硅酸盐材料最新研究进展.结合本课题组在该领域的研究,着重从此类材料的合成方法、结构研究、电化学性能及反应机理等方面进行阐述.综合分析正硅酸盐材料各种合成方法的优缺点、结构研究存在的争议以及性能和机理研究上的...     

聚吡咯/STAB-NaMMT/GC电极对苯二酚的电化学行为研究

利用十八烷基三甲基溴化氨（STAB）和聚吡咯（PPy）钠基蒙脱土制备了PPy/STAB钠基蒙脱土/GC电极（PPy/STAB-NaMMT/GC）.用循环伏安法和方波溶出伏安法（SWSV）研究了对苯二酚在该电极上的电化学行为.实验表明,在pH 6.0 PBS电解液中,对苯二酚在该电极的电极反应受扩散控制,转移的电子数与质...     

Ti0.10Zr0.15V0.35Cr0.10Ni0.30+5wt% LaNi5复合储氢合金的电化学性能与协同效应

为了改善钛钒基固溶体合金的电化学性能,利用两步电弧熔炼法制备复合储氢合金Ti0.10Zr0.15V0.35Cr0.10Ni0.30+5wt%LaNi5,X-射线衍射(XRD)和场发射扫描电镜-能谱(FESEM-EDS)显示:复合储氢合金的主相是体心立方结构的钒基固溶体相和六方结构的C14 Laves相,复合过程中生成了第二相。电化学测试结果表明:复合合金电极的P-C-T特征、活化性能、最大放电容量、循环稳定性、低温放电性能和动力学特性均较母体合金有显著改善。复合合金电极的活化周期数为5,最大放电容量为353.9 mAh.g-1,233 K时低温放电能力为50.26%。该复合合金电极的最大储氢容量、平台压、电荷转移电阻和交换电流密度均存在协同效应;在任意循环、在高/低温下以及在高倍率放电过程中,该复合合金电极的放电容量均存在协同效应。