一氧化氮在聚钴-席夫碱修饰电极上的电催化氧化

研究了一种新合成的杂环席夫碱Ｎ,Ｎ’－二乙酰吡啶缩双苯胺在铂电极上的电化学聚合、聚合膜与钴（Ⅱ）的配合反应及聚合物膜的电化学性质。实验结果表明,该席夫碱可在电极表面通过电化学聚合反应形成具有良好的机械、化学和电化学稳定性的聚合物膜,该聚合物膜可与钴离子形成稳定的配合物,这种配合物对和分子一氧化氮的电化学氧化有显著的催化作用。     

稀土席夫碱配合物催化己内酯可控开环聚合

 通过稀土氯化物与席夫碱钠盐的交换反应制备了一系列以 3,5-二叔丁基水杨醛缩苯胺为配体的稀土席夫碱配合物. 对其中的钕席夫碱配合物进行了 X射线单晶衍射分析, 发现其单晶结构为五角双锥构型, 所得席夫碱稀土配合物可以单组分催化 ?-己内酯开环聚合. 深入研究了钕席夫碱配合物催化己内酯的开环聚合机理, 考察了不同聚合条件对单体转化率、产物分子量及分子量分布的影响. 结果表明, 该聚合反应速率为一级, 聚合反应具有较好的可控性. 聚合物端基分析表明, 聚合反应以配位-插入机理进行.     

间甲基苯胺电化学聚合以及它与对苯二胺电化学共聚的 原位紫外-可见光谱

在0.5 mol•dm－3硫酸介质中, 循环伏安法电解间甲苯胺的原位紫外可见光谱图表明聚间甲基苯胺产生在氧化铟锡导电玻璃电极表面上. 在恒电位条件下, 用原位紫外-可见光谱较详细地研究了间甲基苯胺在氧化铟锡(ITO)上的电化学聚合. 结果表明间甲基苯胺只能在较高电解电位和单体浓度足够大的条件下才能发生电化学聚合. 在0.7 V(相对于饱和的Ag/AgCl), 0.2 mol•dm－3的间甲基苯胺和0.9 V, 20 mmol•dm－3的间甲基苯的实验条件下, 尽管在ITO电极上没有发生电化学均聚合, 但原位紫外-可见光谱表明在电极表面上可能还形成低分子量的齐聚物. 在低电位0.8 V下, 电化学聚合200 mmol•dm－3间甲苯胺时, 有明显的诱导期存在. 在恒电位电解的条件下, 相应的原位紫外-可见光谱和聚合物的傅立叶变换红外光谱(FTIR)表明间甲基苯胺和对苯二胺能发生电化学共聚反应, 由于对苯二胺可能与间甲基苯胺形成了具有较强反应活性的中间体, 使得对苯二胺的加入不但促进和加速了聚合反应, 而且还结合进聚合物中形成了phenazine或类似于phenazine的环结构.     

新型Ti/TiOxHy/Sb-SnO2电极上苯胺电化学氧化反应

苯胺是一种重要的化工原料,广泛应用于印染、制药、造纸、橡胶等领域.随着化工行业的迅速发展,苯胺的需求量越来越大.然而,苯胺毒性高,大量使用势必造成水体中苯胺浓度的升高,给人类健康及生态环境造成危害.因此,急需一种高效、洁净、经济的方法处理含苯胺废水.电化学氧化法比较新颖,相比传统废水处理方法,它具有高效、简单、清洁等优点,因此被应用于很多废水处理当中,但过多的能耗限制了其进一步广泛应用.阳极作为电化学氧化技术的核心部件,直接影响到电化学氧化反应性能.因此开发出一种高效、经济的阳极材料很有必要.此外,对苯胺降解条件的优化也同样重要.关于苯胺电化学氧化,已有的研究包括Pt电极、PbO2电极和石墨电极等阳极材料.比较而言, Ti/Sb-SnO2电极具有制备工艺简单,析氧过电位较高,材料廉价和电催化性能较强等优点.然而,它的稳定性仍有待提高.因此本文制备了一种高稳定性的Ti/TiOxHy/Sb-SnO2电极,并用于处理苯胺废水.较为系统地研究了电流密度、苯胺初始浓度、pH、NaCl投加量及反应器类型对苯胺电催化氧化性能的影响,同时采用扫描电镜(SEM)、X射线衍射(XRD)和电化学测试对该电极进行了表征,并应用紫外-可见光谱、化学需氧量、电流效率及能耗对不同参数进行评定和优化. SEM及XRD结果表明, Ti/TiOxHy/Sb-SnO2电极涂层覆盖比较完全、紧实,未出现裂缝的发生,因而有利于提高电极稳定性.循环伏安测试结果表明,此电极具备较高的析氧过电位(2.0 V vs Ag/AgCl)及电化学孔隙度(76.31%),因此有利于电极催化性能的提高.苯胺电化学氧化实验结果发现,该反应符合准一级动力学模型,且高电流密度、酸性环境、适当NaCl投加量(0.2 wt%)更有利于苯胺的降解.另外, Ti/TiOxHy/Sb-SnO2电极在三维反应器中对苯胺的处理效果要远远好于在二维反应器中.可以看出, Ti/TiOxHy/Sb-SnO2电极具有较好的处理苯胺性能,可为苯胺废水处理的应用提供了一定的理论指导.     

恒电位法低浓度苯胺的电化学聚合研究

对恒电位法低浓度苯胺的电化学聚合进行了研究，推导了受扩散和电极反应同时控制的聚合电流方程式，成功地进行了验证，并对与聚合反应有关的电化学参量αＡ、ｋＢ，ＤＲ进行了测定。     

间甲基苯胺和邻甲基苯胺恒电位电化学聚合行为的比较研究

在0.5 mol·L-1H2SO4水溶液中,以ITO导电玻璃为工作电极,用原位紫外-可见光谱进行跟踪恒电位电聚合间甲基苯胺和邻甲基苯胺.结果表明邻甲基苯胺的电化学聚合要比间甲基苯胺快.在0.9 V(vs.饱和Ag/AgCl)恒电位电解时的电流-时间响应曲线表明聚间甲基苯胺和聚邻甲基苯胺在导电玻璃上的沉积方式是不同的,在电解初期两者均可能以时间累积成核方式沉积,但随着电解的进行,邻甲基苯胺电化学聚合发生支链化,而间甲基苯胺的电化学聚合反应却变慢.扫描电镜图表明聚邻甲基苯胺具有多孔颗粒状的表面形貌,而聚间甲基苯胺却具有致密的表面形貌.量子化学从头计算(6-31**/B3LYP)表明,半氧化态的间甲基苯胺四聚体发生了明显的卷曲而与此对应的邻甲基苯胺四聚体却没有明显的卷曲;这说明尽管聚邻甲基苯胺和聚间甲基苯胺在化学结构上是类似的,但它们的空间结构可能存在明显的不同,导致其聚合和在电极沉积的方式可能产生较大的差别.     

新型Ti/TiO_xH_y/Sb-SnO_2电极上苯胺电化学氧化反应（英文）

苯胺是一种重要的化工原料,广泛应用于印染、制药、造纸、橡胶等领域.随着化工行业的迅速发展,苯胺的需求量越来越大.然而,苯胺毒性高,大量使用势必造成水体中苯胺浓度的升高,给人类健康及生态环境造成危害.因此,急需一种高效、洁净、经济的方法处理含苯胺废水.电化学氧化法比较新颖,相比传统废水处理方法,它具有高效、简单、清洁等优点,因此被应用于很多废水处理当中,但过多的能耗限制了其进一步广泛应用.阳极作为电化学氧化技术的核心部件,直接影响到电化学氧化反应性能.因此开发出一种高效、经济的阳极材料很有必要.此外,对苯胺降解条件的优化也同样重要.关于苯胺电化学氧化,已有的研究包括Pt电极、PbO_2电极和石墨电极等阳极材料.比较而言,Ti/Sb-SnO_2电极具有制备工艺简单,析氧过电位较高,材料廉价和电催化性能较强等优点.然而,它的稳定性仍有待提高.因此本文制备了一种高稳定性的Ti/TiO_xH_y/Sb-SnO_2电极,并用于处理苯胺废水.较为系统地研究了电流密度、苯胺初始浓度、pH、NaCl投加量及反应器类型对苯胺电催化氧化性能的影响,同时采用扫描电镜(SEM)、X射线衍射(XRD)和电化学测试对该电极进行了表征,并应用紫外-可见光谱、化学需氧量、电流效率及能耗对不同参数进行评定和优化.SEM及XRD结果表明,Ti/TiO_xH_y/Sb-SnO_2电极涂层覆盖比较完全、紧实,未出现裂缝的发生,因而有利于提高电极稳定性.循环伏安测试结果表明,此电极具备较高的析氧过电位(2.0 V vs Ag/AgCl)及电化学孔隙度(76.31%),因此有利于电极催化性能的提高.苯胺电化学氧化实验结果发现,该反应符合准一级动力学模型,且高电流密度、酸性环境、适当NaCl投加量(0.2 wt%)更有利于苯胺的降解.另外,Ti/TiO_xH_y/Sb-SnO_2电极在三维反应器中对苯胺的处理效果要远远好于在二维反应器中.可以看出,Ti/TiO_xH_y/Sb-SnO_2电极具有较好的处理苯胺性能,可为苯胺废水处理的应用提供了一定的理论指导.     

Dy（III）离子在LiCl-KCl熔盐中的电化学行为及Dy-Ni金属间化合物的选择性制备

采用循环伏安、方波伏安和开路计时电位等电化学方法研究了Dy(III)离子在LiCl-KCl共晶盐中的电化学行为及Dy-Ni合金形成的电化学机理.循环伏安和方波伏安法研究表明, Dy(III)离子的电化学还原过程为三个电子转移的一步反应.与惰性W电极相比, Dy(III)离子在Ni电极上的循环伏安曲线多出了三对氧化还原峰,是由于Dy与Ni形成了合金化合物,导致Dy(III)离子在活性Ni电极发生了欠电位沉积.采用X射线衍射(XRD)和扫描电子显微镜(SEM)附带能量散射谱(EDS)对恒电位(-1.6,-1.8和-2.0 V)电解制备的Dy-Ni合金进行分析,分别获得了DyNi5, Dy2Ni7和DyNi2金属间化合物.实验结果表明,通过控制电位进行恒电位电解可以有选择性地制备不同的金属间化合物.     

苯胺的电化学聚合计时电流方程式

本文提出了苯胺的电化学聚合计时电流方程式, 并进行了验证。浓度为1.10mol.dm^-^3苯胺(内含2.2mol.dm^-^3HCl)溶液在铂圆盘电极上进行电化学聚合反应, 理论与实验相符。     

亚硒酸钠在L-半胱氨酸自组装类生物膜修饰电极上的电化学行为

利用L-半胱氨酸自组装膜修饰金电极(L-Cys,Au/SAMs), 在0.05mol/L H_2SO_4 底液中研究了 Na_2SeO_3 的电化学特性.在0.00～1.30 V (vs. SCE) 电位范围内对微量Na_2SeO_3进行循环伏安扫描,发现L-Cys, Au/SAMs修饰电极在峰电位0.89 V处有灵敏的Se的氧化溶出峰.通过比较裸金电极和修饰电极在Na_2SeO_3 溶液中的电化学特性发现,修饰电极通过巯基中的S与Na_2SeO_3发生氧化还原作用生成Se,且修饰电极对沉积在电极表面的Se的氧化过程具有催化作用.根据Na_2SeO_3在单分子膜上的电化学行为,提出了单分子膜中硫(Au-S)与Se(Ⅳ)作用生成Se的反应机理、Se电化学催化氧化机理及巯基化合物通过生成纳米硒生物吸收Se的类生物膜模型.     

Enzymatically synthesized polyaniline film deposition studied by simultaneous open circuit potential and electrochemical quartz crystal microbalance measurements

The chemical and enzymatic deposition of polyaniline (PANI) films by in situ polymerization was studied and the resulting films were characterized. The film formation and polymerization processes were simultaneously monitored by the evolution of the open circuit potential and quartz-crystal microbalance measurements. Different substrates, such as Indium-Tin oxide electrodes and gold-coated quartz-crystal electrodes were used as substrates for PANI deposition. Electroactive PANI films were successfully deposited by in situ enzymatic polymerization at low oxidation potential. The electrogravimetric response of the enzymatically deposited PANI film was studied by cyclic voltammetry in monomer-free acidic medium. The morphology of the films was observed by scanning electron microscopy, revealing a granular structure in enzymatically deposited PANI. The PANI films were also characterized by thermogravimetric analysis, electrochemical impedance spectroscopy, and X-ray photoelectron and Fourier-transformed infrared spectroscopy. The simultaneous use of quartz crystal microbalance and open circuit potential is presented as a very useful technique to monitor enzymatic reactions involving oxidoreductases.     

苯胺在碱性溶液中的电化学聚合和聚合物的性质

苯胺在碱性溶液中电化学氧化时，阳极上形成深黄色的聚苯胺，其氧化峰电位为０．７Ｖ（ｖｓ．Ａｇ／ＡｇＣｌ含饱和ＫＣｌ溶液），比在酸性溶液中氧化约低０．３Ｖ，环一盘电极实验结果表明，在碱性溶液中，苯胺氧化时生成两种可溶性的中间物，形成的聚合物颜色不随电位和ｐＨ值而变化，在空气和碱性溶液中具有很高的稳定性，在紫外－可见光谱图上，聚合物的吸收峰出现在５００ｍ左右。     

ELECTROCHEMICAL POLYMERIZATION OF ANILINE IN PHOSPHORIC ACID AND THE PROPERTIES OF POLYANILINE

The behavior of the electrochemical polymerization of aniline in a weak acid, phosphoric acid, is very similar to that in strong acids, i.e. its polymerization rate increases quickly with the electrolysis time. The FTIR spectra of polyaniline samples synthesized in phosphoric acid indicate that the counter ion H2PO4^- is present in both the oxidized form and the reduced form of polyaniline. The counter ion plays an important role in adjusting the pH value at the electrode surface of polyaniline during the oxidation and reduction processes. As a result, a pair of redox peaks still appear in cyclic voltammograms of polyaniline in a solution of sodium sulfate of pH 5.5 and in a solution of NaH2PO4 of pH 7.0,respectively, at low potential scan rate; and the color of polyaniline film also changes with applied potential at pH 7.0. Thus,the pH region for the electrochemical activity and the electrochromism of polyaniline is extended to pH 5.5 for a solution of sodium sulfate and to pH 7.0 for a solution of NaH2PO4. The conductivity of polyaniline is 3.3 S cm^-1, depending on the concentration of phosphoric acid used in the stage of polymerization of aniline. The result of elemental analysis of polyaniline is presented here.     

Chemical trapping experiments support a cation-radical mechanism for the oxidative polymerization of aniline

The oxidative polymerization of aniline in aqueous acidic solution was carried out in the presence of a variety of organic compounds as potential traps for postulated intermediates. The polymerization was inhibited by hindered phenols and electron-rich alkenes, traps for cation-radicals. However, polyaniline was still obtained in the presence of electron-rich arenes, such as 1,3-dimethoxybenzene and 1,4-dimethoxybenzene, known as excellent receptors of nitrenium ions. Polymerization of N-phenyl-1,4-phenylenediamine was similarly carried out in the presence of potential traps. Polyaniline containing an N-phenyl group was obtained in the presence of 1,3-dimethoxybenzene and 1,4-dimethoxybenzene. Hindered phenols and 4-methoxystyrene only slightly inhibited polymerization of N-phenyl-1,4-phenylenediamine which most probably proceeded by way of the stable diarylamino radical. Copolymerization of aniline with 10 wt % of N-phenyl-1,4-phenylenediamine in the presence of these traps gave similar results to the polymerization of pure aniline. These results have led to the proposed cation-radical polymerization mechanism of aniline, in which the polymerization is a chain growth reaction through the combination of a polymeric cation-radical and an anilinium cation-radical. Step growth character is also present when a polymeric aminium cation-radical end combines with a diarylaminoended polymer. The copolymerization of N-phenyl-p-phenylenediamine can also occur by reaction of aniline cation-radical with a polyarylamine radical. The nitrenium mechanism was further rejected by the fact that attempted polymerization of N-phenylhydroxylamine, which forms authentic nitrenium ions in acid, failed to give polymer. © 1999 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 37: 2569–2579, 1999     

Spectroscopic characterization of polyaniline formed by using copper(II) in homogeneous and MCM-41 molecular sieve media

This work emphasizes the important role of the synthetic parameters in the structure of the polymeric material obtained in the aniline polymerization. The polymers formed by the oxidative polymerization of aniline by copper(II) ions in acidic aqueous solution, acetonitrile/water medium, and also copper(II) acetate complex encapsulated into MCM-41 molecular sieve were characterized by resonance Raman spectroscopy using three exciting laser lines and other techniques such as UV-vis, FTIR, and XANES (Nitrogen K edge). Additionally the products were investigated by thermogravimetric analysis and powder X-ray diffraction. When Cu(II) ions in acidic aqueous medium are used, emeraldine salt (ES-PANI) is formed through the usual head-to-tail polymerization mechanism, while in acetonitrile/water medium a polymer is observed having mainly phenazine-like rings, quinonediimine, and/or phenylenediamine segments in the chains, suggesting that a distinct mechanism is operating. The average molecular weights of the free polymers synthesized in water and in acetronile/water were, respectively, ca. 37 300 and 16 900 Da. The encapsulated polymer synthesized in Cu(II)-MCM-41 is a polymeric mixture of (i) ES-PANI and (ii) the polymer obtained when this metal cation was used as oxidant in acetonitrile/water medium. All the characterization data were compared to those ones obtained for standard free polyaniline and also for the encapsulated polymer into mesoporous MCM-41 formed by using persulfate in acidic aqueous medium as oxidant.     

聚苯胺/介孔碳纳米线复合电极材料的制备和性能

以介孔碳纳米线为基体, 通过电化学方法制备了新型聚苯胺/介孔碳纳米线(PANI/MCFs)复合材料, 采用SEM和TEM等手段对样品的结构和形貌进行了表征. 结果表明, 聚苯胺均匀附在介孔碳纳米线表面, 并填充到纳米线介孔孔道中. 将复合材料组装成三电极体系超级电容器, 用循环伏安、 恒流充放电和交流阻抗等方法对材料的电化学性能进行了测试. 结果显示, 在1 mol/L H₂SO₄溶液中, 复合材料的比电容达到391 F/g, 其循环稳定性也得到显著提高.     

铱钽钛金属氧化物阳极的电化学特性

采用热分解方法在钛基体上制备铱钽钛金属氧化物阳极 ,用扫描电镜对阳极涂层显微形貌进行分析 ,通过强化电解寿命试验、开路电位测试、消耗率试验及循环伏安曲线研究了金属氧化物阳极的电化学性能 .SEM分析结果表明铱钽钛金属氧化物阳极涂层呈现多孔多裂纹形貌结构 .随阳极涂层组成不同 ,涂层显微形貌表现出很大差异 ,这种差异直接影响阳极电化学性能 .电化学性能试验结果表明铱钽钛金属氧化物阳极在酸性介质和海水中具有良好的电化学稳定性和电化学活性 .此外 ,铱钽钛金属氧化物阳极在海水中的消耗率很低 ,属于不溶性的阳极材料 ,作为外加电流阴极保护用辅助阳极具有广泛的应用前景 .     

In situ electrochemical SERS studies on electrodeposition of aniline on 4-ATP/Au surface

The electrochemical polymerization of 0.01 M aniline in 1 M H₂SO₄ aqueous solution on roughened Au surface modified with a self-assembled monolayer (SAM) of 4-aminothiophenol (4-ATP) has been investigated by in situ electrochemical surface-enhanced Raman scattering spectroscopy (SERS). The repeat units and possible structures of the electrodeposited polyaniline (PANI) film were proposed; i.e., aniline monomer is coupled in head-to-tail predominately at the C₄ of aniline and amine of 4-ATP, and the thin PANI film is orientated vertically to substrate surface. Simultaneous Raman spectra during potential scanning indicate clearly that the ultrathin PANI film (in initial growth of the film) consists of semiquinone radical cation (IP⁺), para-disubstituted benzene (IP and IP⁺) and quinine diimine (NP) while it is oxidized, and without quinine diimine and semiquinone radical cation while reduced. Meanwhile, the results confirm that 4-ATP monolayer shows a strong promotion on the electrodeposition of aniline monomer, and a possible polymerization mechanism was proposed.     

电聚合苯胺过程的在线紫外-可见光谱

用在线紫外-可见光谱电化学的方法对0.5mol/L硫酸水溶液中苯胺在ITO导电玻璃电极上的电化学聚的过程进行了研究.结果表明在循环伏安条件下苯胺发生了电聚合,聚合速率与苯胺浓度成正关系;而且在线紫外-可见电化学光谱表明,在0.01mol/L苯胺溶液的电聚合过程的诱导期较长.恒电位条件下的在线紫外-可见电化学光谱显示苯胺浓度为0.05mol/L,电位为0.8V时,在ITO电极上苯胺低聚合物中间体可能产生于聚苯胺形成之前;而0.01mol/L苯胺在0.8V电位下不发生聚合,但在线紫外-可见光谱又显示此时在电极上可能存在小的苯胺低聚物的中间体;在线紫外-可见光谱表明这种中间体是可能产生并存在电极表面上的.