CuInSe_2薄膜的电化学沉积及其形成机理

采用电化学沉积法制备了太阳电池用CuInSe2薄膜.利用循环伏安法(CV)、X射线能谱(EDS)和X射线衍射技术(XRD)研究了电沉积过程中CuInSe2的形成机理,并研究了制备工艺对膜层成分、形貌和物相结构的影响.研究结果表明,铟进入固相是通过In3+受Cu3Se2诱导作用欠电势还原或者In3+与H2Se反应这两种途径实现;先沉积的Cu3Se2与新生成的铟或铟硒化合物反应最后生成CuInSe2.在阴极电位为-0.58~-0.9 V(vs.SCE)时出现了不随电位变化的极限还原电流,在该电位范围内进行电沉积获得了化学计量组成稳定可控且相对致密平整的CuInSe2薄膜.电沉积的CuInSe2薄膜经真空退火处理后结晶质量得到明显改善.     

电沉积制备MnO2催化剂及其在微生物燃料电池中的应用

通过电沉积的方法获得了一种具有均匀孔隙结构的海绵状二氧化锰催化剂,结合扫描电子显微镜(SEM)、X射线衍射(XRD)、X射线光电子能谱(XPS)等手段表征了所制备材料的表面形貌、结构及元素构成和赋存价态,采用线性伏安扫描(LSV)法对电沉积材料的电化学性能进行分析,考察其催化氧还原反应的活性,最后以合成的材料为阴极催化剂,构建微生物燃料电池系统,考察其在微生物燃料电池中的应用效果。结果表明,以电沉积二氧化锰为阴极催化剂的微生物燃料电池最大功率密度为975.6 mW/m~2,是以商业二氧化锰为阴极催化剂的电池的1.7倍;这表明作为一种经济、高效、环境友好的阴极氧还原催化剂,电沉积法制备的二氧化锰为实现阴极催化剂的低成本制备以及微生物燃料电池放大化推进提供了新的研究途径。     

采用AlCl_3-EMIC-MgCl_2室温离子液体电沉积制备铝-镁合金（英文）

采用恒电流和恒电位技术,以及路易斯酸氯化铝(III)-1-乙基-3-甲基咪唑氯化物离子液体中添加氯化镁(II),室温下在铂和铜阴极表面电沉积制备了铝-镁合金.合金层中镁的含量随离子液体中氯化镁浓度和所施加的阴极电流密度的增加而增加.采用X-射线衍射谱(XRD)、扫描电子显微镜(SEM)和能量散射X-射线谱(EDAX)技术,研究了不同电沉积实验条件得到的电沉积层的晶体结构及表面形貌.增加沉积电流密度,可以制备出致密、光亮和结合力良好的电沉积层.铝-镁合金电沉积的阴极电流效率可达99%.应用电化学石英晶体微天平(EQCM)技术研究了电沉积合金的组成.根据重声阻抗分析得到的质量-电荷(m-Q)曲线斜率计算了金属共沉积层的化学成分.     

以膦酸酯聚芴作为阴极界面修饰层的高效聚合物红光电致发光器件

以膦酸酯聚芴为阴极界面修饰层, 高功函金属铝为阴极, 制备了一种高效聚合物红光电致发光器件. 通过X射线光电子能谱(XPS)的表征, 分析了经真空蒸镀沉积在膦酸酯聚芴表面的Al原子与下层的膦酸酯聚芴在有机物-金属界面处的作用情况, 结果表明, 在真空蒸镀金属Al的过程中, 在有机物-金属界面处形成了一种氧/铝复合物. 研究了这种氧/铝复合物对器件光电性能的影响, 结果表明, 氧/铝复合物的产生提高了阴极电子的注入, 使器件效率得到了很大提高. 与以Ca/Al为阴极的传统器件相比, 以膦酸酯聚芴/Al为阴极的聚合物电致发光器件的效率提高了75%, 达到7.0 cd/A.     

阴极微弧电沉积制备Al2O3陶瓷层技术及研究进展

阴极微弧电沉积技术是一种在材料表面通过微弧放电沉积陶瓷层的表面处理技术,利用该技术可以在金属及非金属表面生成耐磨、耐蚀性能优异的陶瓷膜层.本文介绍了阴极微弧电沉积技术的研究现状以及应用阴极微弧电沉积技术制备Al2O3陶瓷层的方法和基本原理,并且对阴极微弧电沉积技术的影响因素进行了总结,阐述了阴极微弧电沉积技术的应用前景和存在的问题.     

酸性介质中丙烯基硫脲对铜阳极溶出和阴极沉积过程影响的EQCM研究

采用循环伏安(CV)和电化学石英晶体微天平(EQCM)方法研究了酸性介质中铜阳极溶出和阴极沉积过程以及丙烯基硫脲(AT)对该过程的影响. 结果表明, 铜阳极溶出和阴极沉积过程的M/n分别为32.0和34.2 g/mol, 都是两电子过程, 其间未检测到Cu(Ⅰ)中间产物. AT改变了铜阳极溶出和阴极沉积的历程. 在含AT的溶液中, 铜阳极溶出和阴极沉积过程的M/n分别为61.9和65.4 g/mol, 可指认铜阳极溶出产物为CuAT+, 并提出了AT存在下Cu阳极溶出和阴极沉积过程的反应机理; 从电极表面质量定量变化的角度提供了Cu阳极溶出和阴极沉积过程的新数据.     

非化学计量的混合价态氧化钼(Ⅵ,Ⅴ)修饰微电极的电化学制备

在新鲜配制的Na_2MoO_4的弱酸性水溶液中,通过循环电位扫描在碳纤维微电极表面可沉积一层均匀的蓝色氧化钼(VI,V)薄膜,膜的厚度通过电量进行控制.在电沉积之前,电极的阳极化处理不仅可以加快氧化钼的电沉积,而且可以改善膜的伏安行为.溶液的pH值对膜的电沉积和伏安行为有极大的影响.膜的阴极过程被认为是产生青钼铜:H_xMoO_3(0相似文献   

电沉积Ni/LaNiO3复合电极及其在碱性介质中的析氧性能

采用溶胶-凝胶法制备了钙钛矿型复合氧化物LaNiO3,然后将其加入瓦特镀镍液中进行复合电沉积,研究了镀液pH值和阴极电流密度对Ni/LaNiO3复合镀层组成的影响。运用扫描电镜(SEM)、能谱分析(EDS)和X射线衍射(XRD)等对复合镀层进行表征,结果表明:最佳电沉积工艺条件是镀液pH=5.8和阴极电流密度jk=90 mA.cm-2,所得的Ni/LaNiO3复合镀层中LaNiO3的质量含量约为60%。用循环伏安、稳态极化、恒电位阶跃、电化学阻抗谱等电化学技术评价了Ni/LaNiO3复合电极的析氧性能。结果表明:在5 mol.L-1的KOH溶液中,Ni/LaNiO3复合电极的起始析氧电位较镍电极负,表观活化自由能比镍电极降低约2/3,比表面积约为镍电极的55倍,析氧电催化性能得到大幅度提高。     

氧在镧钼阴极中的作用

利用脉冲激光沉积在不同真空度下制备了不同La／O的La-Mo薄膜阴极，测量其发射性能并进行了原位AES分析，讨论了氧在镧钼阴极热电子发射中的作用。过多的氧易形成稳定的氧化镧，不利于电子发射；适当比例的氧可以减缓镧的蒸发，有助于阴极的稳定工作。La-O化合物中氧空位的形成有利于阴极的电子发射，氧缺位增强了镧氧化合物的半导体性。     

Na2SeO3在Fe电极上还原和吸附机理

采用循环伏安法、恒电势电解法、恒电流阶跃法及交流阻抗法研究Na2SeO3提高锌锰合金电沉积电流效率的作用机理.证明在锌锰合金电沉积的条件下，Na2SeO3 阴极被还原为Se32－并吸附在阴极表面上，从而阻止了氢原子在阴极表面的吸附，因而减少了氢离子的阴极还原.拟定了Na2SeO3的反应和吸附机理，用交流阻抗法进一步证明了所拟机理的正确性.     

Characterization of cathodic film formed during reduction of chromic acid: role of sulphuric acid concentration

The surface composition of chromium, electrodeposited from a chromic acid solution with different amounts of sulphuric acid, has been investigated by means of Auger Electron Spectroscopy (AES) and X‐ray Photoelectron Spectroscopy (XPS). The quantity of sulphuric acid is a critical parameter in order to form metallic chromium instead of a non‐reducible chromium (III) oxide layer. The intermediate cathodic film formed on the electrode before the metallic chromium deposition has been investigated and XPS measurements have shown that a chromium oxide film is formed whatever the sulphuric acid concentration. However, in the presence of sufficient amounts of sulphate, this oxide is dissolved or the layer is broken down, giving rise to a free steel surface where the reduction of chromate ions into metallic chromium can take place. Copyright © 2004 John Wiley & Sons, Ltd.     

Electroreduction of chromic acid during the chromium deposition: An RRDE study

The rate of the trivalent chromium ion formation during the chromic acid reduction in the presence of sulfate ions is studied in a wide potential range by the RRDE method. At potentials of incomplete reduction of chromate ions, the reaction is attendant by a side process (probably, the hydrogen ion reduction). With a phase film covering the disk cathode, the ring current does not correspond to the number of Cr(III) ions formed at the disk, rather it characterizes the oxidation of products of a phase film comprising oxide-hydroxide compounds of Cr(III). The hypothesis about the formation of a phase cathodic film, presumably preceding the metallic chromium deposition, is confirmed experimentally. The oxide-hydroxide species of Cr(III), which are main film-forming substances, undergo phase transitions in a zone that depends on the sulfate ion concentration. The phase transitions whose products may reach the ring electrode occur in the near-electrode layer. The lower the sulfate ion concentration, the larger the extension of the layer.     

XPS、AES研究卤素对铬酸电沉积的活化作用

测定了卤素-铬酸-硫酸体系中铬的电沉积效率及阴极极化曲线;XPS、AES测定了该体系中形成的阴极膜的组成。结果表明,硫酸能有效地催化光亮铬的形成,F~-、Cl~-能显著地提高铬沉积的电流效率;除Br~-外,F~-、Cl~-均参加成膜;膜的深度剖析曲线表明,卤素分布在膜的深层,SO_4~(2-)集中在膜的表面。由此可推测,F~-、Cl~-在金属表面和铬酸的还原产物重铬酸铬形成易发生电子转移反应的表面过渡态配合物,[Cr~Ⅲ-X-Cr~Ⅲ]~≠。     

Characterization of chromate conversion film on tinplate substrate by XPS and electrochemistry methods

The chromate conversion coating formed on commercial tinplate via a cathode electrolytic dichromate treatment has been studied by X‐ray photoelectron spectroscopy (XPS) and electrochemistry methods. Through the analysis of the XPS, it was shown that there existed Cr, O, and Sn in the chromate coating and the chromate film consisted mainly of Cr(OH)₃, Cr₂O₃, Sn, and SnO_x. The current density decreased with increasing of the electric charge. The corrosion resistance for tinplate is relative with the content of chromium in the passivation film. Copyright © 2009 John Wiley & Sons, Ltd.     

EC STM investigations of corrosion due to chloride solutions on thin CrN coatings

The focus of the investigations presented is to evaluate local alterations caused by chloride ions affecting thin, magnetron-sputtered CrN layers. Scanning-probe microscopy and analysis techniques are used for this estimation. Thin CrN layers were deposited by reactive magnetron sputtering. They were investigated in electrochemical scanning tunnelling microscopy (EC STM) by cyclic voltammetry in 1 mol L(-1) NaCl. Simultaneously, the surface topography changes were recorded with STM.Above 100 mV the anodic oxidation leads to formation of chromium(III) hydroxide and at sample potentials above 350 mV oxidation of Cr(OH)(2) and Cr(OH)(3) towards chromium(VI) as a soluble chromate starts. Transpassive dissolution of the coating takes place above 900 mV. Yellow colour of the electrolyte is a visible sign for the formation of chromium(VI). Changes of the surface topography indicate the formation of surface layers at anodic potentials. At cathodic potentials increase in current is measured due to the reduction of chromium(III) hydroxide to divalent chromium and metallic chromium. Roughness of surface topography increases.Follow-up explorations with scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDX), atomic-force microscopy (AFM), scanning tunnelling microscopy/scanning tunnelling spectroscopy (STM/STS) and X-ray photoelectron spectroscopy (XPS) not only evidence the formation of various chromium oxides, but also indicate the existence of chromium hydroxide.     

固体氧化物燃料电池Cr毒化La0.8Sr0.2MnO3-δ(LSM)阴极机理

从电化学阻抗谱和阴极极化等方面对Cr毒化La0.8Sr0.2MnO3-δ(LSM)阴极机理进行了研究.     

Cathodic Reduction of Chromium on a Surface of Nickel Modified by Aromatic Carboxylic Acids

Effect of organic compounds (salicylic, acetylsalicylic, and p-nitrobenzoic acids) adsorbed on a nickel surface or introduced into solution on the cathodic reduction of Cr(VI) is studied by measuring voltammetric curves in a wide potential range up to the beginning of electrodeposition of black chromium. If the adsorbate is salicylic or p-nitrobenzoic acid, only the maximum current corresponding to incomplete reduction Cr(VI) Cr(III) increases in cathodic polarization curve (PC). On a surface modified by acetylsalicylic acid, in addition to an increase in the maximum current, all parts of PC shift towards positive potentials. The Cr(VI) reduction on modified surfaces accelerates presumably due to the electron transfer from the cathode surface onto Cr(VI) atoms, accelerated by the formation of bridges with an increased electron conduction.     

Passive and transpassive films formed on a nickel alloy in ammoniacal solution

The surface of alloy 625 (Ni‐22Cr‐9Mo) was characterized with XPS and AES depth profiling after exposure to mildly alkaline ammoniacal solution at open circuit and after potentiostatic treatments at various potentials. It was determined that the passive surface film was a Cr and Mo oxide that was depleted in Ni with respect to the bulk alloy. Increased solution temperatures or oxygen concentrations decreased the Ni to Cr ratio in the passive film. The alloy's transpassive film was characterized using SEM and EDX as well as XPS. The transpassive film was heavily depleted in Ni and Cr and consisted mainly of an oxide of Fe. Copyright © 2009 John Wiley & Sons, Ltd.     

Corrosion–Electrochemical Behavior of Chromium Deposits Obtained from Sulfuric Acid Solutions Containing Oxalates

The corrosion–electrochemical behavior of chromium electrodeposits, which are formed in sulfuric acid solutions of Cr(III) containing oxalates, is studied by taking steady-state polarization measurements in a 0.5 M H₂SO₄ solution. No region of the metal's active dissolution is observed for such coatings, and the open-circuit potential is localized in the passivity region, i.e. it is substantially displaced in the positive direction as compared with that for metallurgic chromium or the coatings deposited from standard chromium-plating electrolytes. According to XPS data, the surface layer of the passive metal a few nanometers thick includes oxide compounds of chromium and also carbides formed during the coating electrodeposition. Specific features of the corrosion–electrochemical behavior of the deposits are attributed to the presence of carbide compounds of chromium in them, with the compounds playing the role of a cathodic alloying agent.     

Investigation of deceleration causes in gold electrowinning from aqueous cyanide solutions on porous carbon electrodes

Deceleration of gold electrowinning from model cyanide solutions on porous cathode of graphitized carbon felt was investigated. It was established that calcium ions present in the solution did not negatively affect the electrolysis rate. The main reason of the termination of gold electrowinning on the graphitized cathode was the corrosion of the stainless steel anode resulting in penetration into the cathode chamber of the electrolyzer of CrO₄²⁻ anions further reduced to Cr(III) and probably Cr(II) compounds. X-ray Photoelectron Spectroscopy investigation of the passivated carbon cathode showed that the film formed thereon consisted of Cr(III) compounds containing cyanide and hydroxy ligands. This film covers the active sites on the surface of the porous carbon cathode preventing the deposition thereon of ad-ions of gold(I). Inert aqua and hydroxo complexes of chromium(III) stronger impede the rate of gold(0) deposition on the porous carbon cathode than chromium(III) cyanide compounds. This fact originates presumably from the requirement of lower cathode potentials for the reduction of the former to labile chromium(II) complexes than those necessary for the thermodynamically stable anions [Cr(CN)₆]³⁻.