银电极在Na2SO4溶液中氧化还原过程的原位拉曼光谱研究

采用原位拉曼光谱结合循环伏安法研究银电极在０．１ｍｏｌ／Ｌ的Ｎａ２ＳＯ４溶液中不同电位下的氧化还原过程，在电位扫描过程中，实时记录的拉曼光谱表明，电极表面在０．２Ｖ开始生成吸附原子氧物种，当电位正于０．４Ｖ，部分吸附的原子氧扩散进入电极的亚表面区，而另一些则通过强的化学吸附与银表面成键；同时部分银氧化为＋１价，各谱带的产生和消失与氧化还原电流峰有很好的对应关系，表明电化学原位拉曼光谱能在分子水平上     

电解银表面氧物种转化的原位拉曼光谱表征

 首次采用原位共焦显微激光拉曼光谱研究了经纯氧预处理后电解银表面吸附的不同氧物种在升温过程中相互转化的情况. 结果发现,当温度低于423 K时, Ag-O2物种缓慢转化为超氧物种 Ag［O-O］-; 温度升高至423 K时, Ag［O-O］-物种将随着时间的延长转化为 Ag-O(α) 物种; 继续升高温度, Ag-O(α) 物种首先转化为 Ag-O-O-Ag 物种,再进一步转化为电解银表面最稳定的 Ag-O(γ) 次表层氧物种并保持至973 K以上. 结合实际反应体系,低温下电解银表面吸附的氧物种主要是分子氧,在类似乙烯环氧化反应的条件下这些分子氧将转化成 Ag-O(α) 物种,而在类似甲醇选择氧化制甲醛的反应条件下又转化为在高温下较稳定的 Ag-O(γ) 物种,根据具体的转化细节推测了可能的机理.     

多晶铂电极表面硫吸附物种的原位表面增强拉曼光谱研究

本工作首次报道了在酸性或碱性电解质中高粗糙度多晶铂电极表面硫物种的吸附、电氧化过程的原位表面增强拉曼光谱研究.分别在两种情况下采集了粗糙铂电极的表面增强拉曼光谱:(a)循环伏安处理后控制一定电位(0.2V)下;(b)逐步控制不同电位.酸性电解质条件下,两种情况均观察到位于300cm-1的Pt—S振动.Pt—S键较强,阻止了氢在铂电极表面的吸附,需多次循环伏安处理才能完全将表面吸附的硫去除.同时还观察到位于470cm-1处的少量多聚S物种(S8或者其他类型).这些多聚S物种仅仅微弱地键合在铂电极的表面,可以容易地除去.在碱性电解质中,同样也在(a)和(b)情况下观察到位于310cm-1的Pt—S振动吸收.本工作了获得了有关硫在粗糙多晶铂电极表面吸附和电氧化重要信息,证明了原位表面增强拉曼光谱在研究铂表面的适用性.     

电位扫描过程中NAD+在银电极上的原位表面增强拉曼光谱

利用共焦激光拉曼系统,原位测定了电位扫描过程中NAD^ 分子在银电极上的表面增强拉曼光谱的变化.通过分析0.4→-0.2→-0.4V电位区间的拉曼光谱的变化,推断由于NAD^ 分子中存在着具有空间旋转自由度的磷酸二酯键,分子中腺嘌呤和烟酰胺两结构单元在银电极上的吸附构型都随电位变化而发生改变.     

完全绿色路线获得的银纳米线的表面增强拉曼光谱

以硝酸银为银源,在硅片上成功地制备了银纳米线。该制备步骤在室温下操作,用环境友好的化合物乙二醇作还原剂。这是一个完全“绿色的”制备路线。用XRD、SEM和EDX对新制备的产物进行了表征,结果表明该银纳米线很纯,平均直径20nm。该银纳米线用于罗丹明6G的表面增强拉曼光谱测定,当罗丹明6G为10nM时,出现了特征峰。     

银电极上4-氨基安替比林原位表面增强拉曼光谱电化学

在银电极表面4-氨基安替比林(4-AAP)分子自组装,形成单分子膜层.应用表面增强拉曼散射(SERS)光谱原位考察不同电位下4-AAP在电极表面的吸附机理及其组装液pH值对组装分子与银作用方式的影响.依据密度泛函数(DFT)理论预测4-AAP分子振动模式及其SERS光谱归属.结果表明:在开路电位下,组装层中的4-AAP分子以N15和O3为位点,由苯环倾斜和比林环垂直的方式吸附在银表面;但随着外加电位负移,4-AAP分子的苯环趋于垂直吸附而比林环则逐渐以平行方式靠近银表面.在-0.8V电位下,4-AAP分子从银表面脱附.酸性溶液中组装,形成的4-AAP膜层以N15和O3为位点吸附于银表面,比林环倾斜而苯环直立;碱性条件下,分子的吸附位点不变,比林环呈平行取向,而苯环倾斜于银表面.     

银纳米线与BSA相互作用的光谱学研究

主要研究了粒径为60 nm的银纳米线与牛血清白蛋白(BSA)之间的相互作用.利用紫外可见吸收光谱法和荧光光谱法对反应体系进行了光谱学实验研究.实验结果表明,随着银纳米线溶液浓度的增加,反应体系的紫外吸收峰强度增大.但是,荧光强度却明显猝灭.由荧光结果可以得知银纳米线和BSA的相互作用过程是静态猝灭;同步荧光光谱结果表明,银纳米线对蛋白质周围的环境产生了影响.由变温荧光实验结果还可获得银纳米线与BSA相互作用的结合常数、结合位点数以及吉布斯自由能变.由热力学数据可知银纳米与牛血清白蛋白可以自发结合发生反应,且主要结合力为范德华力和氢键.     

用银氨溶液对微米级铜粉镀银反应机理的研究

微米级铜粉具有许多优良的物理特性与催化活性,被广泛应用于导电涂料、电极材料、催化剂等领域。但铜粉微细化后,由于粒子的比表面很大,其化学活性很高 [1],在空气中极易被氧化成氧化亚铜,失去原有的物理化学特性。在铜粉表面镀银形成铜银双金属粉,既提高铜粉的抗氧化能力,又可保持铜粉的优良特性 [2,3],此项研究已成为国内外科学工作者注目的课 题 [4,5]。本文对微米级铜粉镀银反应的机理进行了探索研究。 高分散度的微细体系,拥有极大的表面积,具有很高的表面吉布斯自由能,会产生很强的界面吸附作用,该作用将会对化学反应产…     

原位漫反射红外光谱技术用于气固催化反应机理的研究

漫反射傅立叶变换红外光谱技术是一种对固体粉末样品进行直接测量的光谱方法,是近年来发展起来的一项较理想的原位表征技术。原位漫反射红外技术由于可直接对催化剂表面的吸附态物种给出红外信号,可方便地跟踪鉴定反应中间态和产物,从而为催化反应体系反应机理的考察给出直接的证据。本文对于原位漫反射红外技术用于低温水煤气变换反应和水汽逆变换反应、醇类的水蒸汽重整、含CO₂的合成气制取甲醇、低碳烃制合成气、CO催化氧化以及其他烃类和含氧化合物的氧化等方面进行了综述,认为该技术可很好地剖析气固相催化反应机理。     

CO和CO2在Cu／ZnO／Al2O3催化剂上加氢反应机理的原位红外研究

ＣｕＺｎＯＡｌ2Ｏ3催化剂用于合成甲醇的反应机理已经进行了大量的研究[1～3]。近年来,利用原位红外技术在研究合成甲醇的催化反应机理方面取得了不少研究成果[4～7]。但大多数实验是采用低铜含量催化剂[4,5]。本文采用高温加压式原位红外池,在513Ｋ和20ＭＰａ的条件下,...     

Advanced TEM Characterization for Single-atom Catalysts: from Ex-situ Towards In-situ

Clean energy innovation has triggered the development of single-atom catalysts(SACs) due to their excellent catalytic activity, high tunability and low cost. The success of SACs for many catalytic reactions has opened a new field, where the fundamentals of catalytic property-structure relationship at atomic level await exploration, and thus raises challenges for structural characterization. Among the characterization techniques for SACs, aberration-corrected transmission electron microscopy(TEM) has become an essential tool for direct visualization of single atoms. In this review, we briefly summarize recent studies on SACs using advanced TEM. We first introduce TEM methods, which are particularly important for SACs characterization, and then discuss the applications of advanced TEM for SAC characterization, where not only atomic dispersion of single atoms can be studied, but also the distribution of elements and the valence state with local coordination can be resolved. We further extend our review towards in-situ TEM, which has increasing importance for the fundamental understanding of catalytic mechanism. Perspectives of TEM for SACs are finally discussed.     

Determination of Arsenic Speciation in Complex Environmental Samples by the Combined Use of TEM and XPS

Transmission Electron Microscopy (TEM) and X-ray Photoelectron Spectroscopy (XPS) have been used to refine the solid-state speciation of As in mine waste materials and stream-bed sediments from the Baccu Locci mine area in Sardinia, Italy. The combined use of TEM and XPS confirmed previous studies and pointed out that: (i) As is contained in plumbojarosite in substitution of S, (ii) As-bearing Fe(III) hydroxides are represented by arsenical 2-line ferrihydrites with most Fe/As molar ratios in the range of 1.6–3.2, (iii) scorodite often lacks long range order. Arsenatian plumbojarosite will tend to dissolve incongruently in ferrihydrite, releasing Pb and As into water. However, Pb is fated to precipitate as Pb(OH)₂ or to be adsorbed onto ferrihydrite, whereas As mobility is favoured since the adsorptive capacity of ferrihydrite for As(V) is notably reduced under the neutral to alkaline pH conditions occurring in the Baccu Locci stream water. Arsenical ferrihydrites will tend to be converted into goethite or hematite with time, releasing As into the water as a consequence of the notably lower density of the adsorption sites of the crystalline Fe(III) phases. Also scorodite is relatively unstable under the Baccu Locci system conditions, and its stability is further decreased owing to the higher solubility of the amorphous form compared to the crystalline one.     

Preparation of micelle-encapsulated single-wall and multi-wall carbon nanotubes with amphiphilic hyperbranched polymer

The hyperbranched polyester (Boltorn^TM H20) was modified by maleic anhydride and then polystyrene (H20-MAh-PSt) to form amphiphilic micelles in water. The single-wall and multi-wall carbon nanotubes (SWCNTs and MWCNTs, respectively) were encapsulated in the formed micelles through non-covalent interactions. The formed structures were confirmed by FTIR, NMR, GPC, and XPS analysis. The dispersion and aggregation behaviors were observed by TEM and UV-vis and Raman spectroscopic analysis. The results showed that the dispersion performance of the obtained micelle-encapsulated carbon nanotubes in water was greatly improved compared to the pure carbon nanotubes. From the TEM observation, the individual SWCNT structure and the uniform polymer coating around the surface of SWCNT were seen after crosslinking. The Raman spectroscopic measurements also demonstrated that for the crosslinked samples, no effect occurred associated with concentration-dependent carbon nanotube aggregation.     

Structural Study of Micro and Nanotubes Synthesized by Rapid Thermal Chemical Vapor Deposition

The structures of micro and nanotubes obtained by pyrolysis of hydrocarbons, hold onto silicon (Si) substrates, are reported in this work. The tubes fabrication experiments were carried out by Rapid Thermal Chemical Vapor Deposition (RTCVD) using propane (C₃H₈) as carbon (C) precursor. Selection of parameters such as temperature of deposition, vacuum conditions or surface cleaning leads to the creation of tubular structures. Transmission electron microscopy (TEM), scanning electron microscopy (SEM), selected area electron diffraction (SAED) and energy dispersive X-ray measurements (EDX) are the microbeam techniques that allow to characterize the tubes found in the studied specimens. Different tube configurations such as isolated nanorods, Y-type junctions or fiber-like layers are evidenced. Metallic catalysis seems to be the mechanism involved in the wires formation since Fe particles are present inside the CNT tubes. Other poly-crystalline inclusions are also evidenced by SAED. The composition of the nanotubes changes from tip to tail in an amorphous matrix. The growth mechanisms leading to tube formation are described.     

Analysis of Silver Nanoparticles Using Single-Particle Inductively Coupled Plasma – Mass Spectrometry (ICP-MS): Parameters Affecting the Quality of Results

Single–particle analysis using inductively coupled plasma mass spectrometry offers a new tool for the characterisation of inorganic nanoparticles. Its development is connected with new generations of ultrafast spectrometers. This work is concerned with thorough investigation of parameters affecting the quality of the analysis of Ag nanoparticles, i.e., nanoparticle stability, transport efficiency and sensitivity of determination. The short-term stability of Ag nanoparticles in demineralised water can be prolonged to at least 7?h by the addition of 0.05% gelatin. The sensitivity was affected by plasma power and the nebuliser Ar flow. The transport efficiency decreased with increasing sample uptake, so a compromise between the efficiency and the total number of particles entering the spectrometer should be selected. The estimate of transport efficiency is distorted when more concentrated dispersions of nanoparticles are analysed because of the overlapping of signals of multiple nanoparticles. This effect was observed for dispersions of concentration greater than 1?×?10⁶?mL^?1 where an apparent decrease in transport efficiency from an initial value 7–8% to 1% was observed. The following parameters were found by method validation: concentration limit of detection of 97?mL^?1, nanoparticle diameter limit of detection 15?nm, linearity from 20 to at least 100?nm and repeatability of 1.3%. After validation, the method was applied to determine Ag nanoparticles in river water from the Vltava in Prague. Nanoparticles with diameters of 32–114?nm were found, and their number concentration increased from 340?mL^?1 to 1670?mL^?1 as the stream of water passed through urban agglomeration.     

探究二氧化硫在盐酸中分别与铜单质、二价铜离子、氯化铁溶液的反应*

通过实验发现:SO₂在盐酸中既能将Cu单质氧化为+1价铜的化合物,也能把Cu²⁺还原为+1价铜的化合物,且发现SO₂将Cu单质氧化或将Cu²⁺还原都需要有Cl^-来参与反应,其反应机理需要通过SO₂和FeCl₃的反应(I^-催化)来进一步探究。这几个探究实验皆易于操作与观察,具有显著的实验表征,有利于从宏观辨识深入到微观探析的过程。     

Melt mixing of polycarbonate with multiwalled carbon nanotubes: microscopic studies on the state of dispersion

The focus of the paper is to investigate several issues related to the state of dispersion of multiwalled carbon nanotubes (MWNTs) in a polycarbonate (PC) matrix. A masterbatch of PC-MWNT (15 wt.%) was diluted with different amounts of PC in a small scale conical twin screw extruder (DACA Micro Compounder) to obtain different compositions of MWNT. In this system, electrical measurements indicated percolation of MWNT between 1.0 and 1.5 wt.%. We report TEM and AFM investigations of the state of dispersion of MWNT, in the entire volume of the matrix, in selected composites with compositions below (1 wt.% MWNT) and above the percolation threshold (2 and 5 wt.% MWNT). In addition, it was investigated if surface segregation of MWNT and flow induced orientation of nanotubes within the extruded strands had been occurred. It is found that the nanotubes dispersed uniformly through the matrix showing no significant agglomeration in the compositions studied. TEM micrographs seem to be able to detect the percolated structure of the carbon nanotubes. Furthermore, by comparing AFM micrographs from the core region and near to surface region no evidence of segregation or depletion of MWNT at the surface of the extruded strand was found. Comparison of TEM and AFM micrographs on surfaces cut along and perpendicular to the strand direction led to the conclusion that no preferred alignment had occurred as a result of extrusion. Aside from TEM technique, AFM is shown to be suitable to characterize the state of nanotube dispersion along with the issue of surface segregation and orientation of the nanotubes.     

四卤化碳: 强碱反应体系顺磁共振研究

单电子转移反应是物理有机化学中十分活跃的研究领域之一,现已发现许多有机反应中都存在着单电子转移过程。探讨不同的单电子转移反应体系,了解其中电子给、受体之间的相互作用,不仅对深入了解反应机理有理论     

Particle size measurements of heterogeneous film-forming latexes

Two-phase latex particles consisting of mainly polystyrene (PS) and polyisoprene (PI) in ratios varying from 7030 to 2080 were prepared using different polymerization techniques. Methacrylic acid (MAA) was used in small amounts as a comonomer. The latexes had narrow size distributions, and showed different particle morphologies depending on the monomer composition and the polymerization conditions used. In most cases the latexes were filmforming at room temperature. Particle size distributions and average particle sizes of the latexes have been determined using different particle sizing methods.Size determination by TEM was performed after staining with osmium tetroxide (OsO₄) or uranyl acetate (UAc). The staining methods showed no significant differences in particle size averages and particle size distributions when the ratio between the PI and PS phase did not exceed 5050. At higher phase ratios OsO₄ staining was preferred. The glass transition temperature of the PI phase increased after OsO₄ staining, which prevented deformation of the latex particles. Particle morphologies for the heterogeneous latex particles were also determined after OsO₄ staining.Particle sizes measured by TEM were generally smaller than the corresponding sizes measured by quasielastic light scattering (QELS). The difference in the measured diameters increased with increasing PI and PMAA content in the latex particles. The larger sizes observed by QELS are results of the presence of an immobilized water layer surrounding the particles in the aqueous environment, water absorption and swelling due to the presence of carboxylic acid groups, and adsorption of soluble carboxylated polymers forming a hydrophilic corona around the particles. By TEM the hard sphere diameters of dehydrated particles are measured.     

自生氧化铝颗粒增强铝基复合材料的扫描电镜和原子力显微镜的对比研究

用扫描电镜（ＳＥＭ）、原子力显微镜（ＡＦＭ）等分析技术研究了一种Ａｌ／Ａｌ２Ｏ３自生颗粒复合材料的微观形貌，结果表明，７００～７５０℃气－液反应生成的氧化铝自生颗粒的典型尺寸为亚微米级，颗粒与基体之间具有热力学稳定性。