Pt/PAn/GC电极的制备及对甲酸电催化氧化性能的研究

利用循环伏安法电聚合导电高分子聚苯胺，并制备了Pt／PAn／GC电极和Pt／GC电极，优化了苯胺在玻碳电极上的聚合条件，用在H2SO4中的循环伏安曲线对其进行了表征，Pt／PAn／GC电极的制备提高了Pt的分散度，增加了催化剂Pt的利用率。实验结果表明Pt／PAn／GC电极对甲酸电氧化的催化活性明显高于Pt／GC电极和Pt电极，正向扫描和反向扫描时对应的氧化峰电位分别是0．68V、0．45V。峰电流为54．23mA／cm^2和84．23mA／cm^2，为Pt／GC电极的修饰电极1．7倍和1．9倍，为Pt片电极的3．8倍和4．9倍，有效地提高了铂微粒的催化活性，并得到聚合苯胺的最佳条件为扫描速度50mV／s、扫描上限1．2V。     

聚苯胺修饰电极对甲醇的电催化氧化研究

应用电化学方法制备了Pt/PAn/GC电极,优化了苯胺在玻碳电极上的聚合条件,并对其进行了表征.结果表明,铂微粒在聚苯胺膜电极上具有很高的分散度,电极具有很大的比表面积,Pt/PAn/GC电极对甲醇电氧化的催化活性明显高于Pt/GC电极和Pt电极,在该电极上甲醇正向扫描和反向扫描时的氧化峰电流为58.68mA/cm2和50.00mA/cm2,为Pt/GC电极的1.6倍和1.7倍,为Pt电极的3.0倍和3.1倍,从而有效地提高了铂的催化活性,并得到在玻碳电极上聚合苯胺的最佳条件为扫描速度50mV/s,扫描上限1.2V.     

甲醇在铂微粒修饰碳纳米管/纳米TiO2-聚苯胺膜电极上的电催化氧化

在0.5mol·L-1硫酸介质中,采用循环伏安的电化学聚合方法,以50mv·s-1的扫描速度,在-0.1～0.9V范围内以碳纳米管/纳米TiO2(CNT/nanoTiO2)电极为基体聚合得到了聚苯胺(PAn)复合膜电极,用循环伏安法研究了CNT/nanoTiO2-PAn-Pt电极在0.5mol·L-1H2SO4溶液中的电化学行为以及对甲醇氧化的电催化行为。结果表明,CNT/nanoTiO2-PAn-Pt电极对甲醇的氧化具有很高的电催化活性,并同时存在PAn的协同催化作用。在Pt载量为0.56mg/cm2时,甲醇氧化峰电流达到152mA/cm2,随着Pt载量的增加,甲醇的氧化峰电流最高可达410mA/cm2。     

铂微粒修饰聚苯胺膜电极对甲酸电催化氧化的研究

采用循环伏安法研究Pt盘电极 (Pt)、铂微粒修饰Pt盘电极 [Pt(Pt) ]和Pt微粒修饰聚苯胺膜电极 [PAN(Pt) ]对甲酸电催化氧化行为的影响 ,比较了它们对甲酸电催化氧化的活性 ,发现PAN(Pt)电极对甲酸电催化氧化的表观电流密度为 3 79× 10 2 mA·cm-2 ,分别比Pt、Pt(Pt)和Pt-PDMA/Pt电极约高 2 35、2 5和 6 3倍。峰电位比Pt PDMA/Pt电极约低 0 16V。     

聚苯胺Ni~(2 )膜修饰电极对甲醇的电催化氧化研究

将电聚合的聚苯胺 (PAN)膜电极置于c(NiSO4 ) =2 5mol/L的溶液中浸泡 2 0min得到嵌入Ni2 的PAN Ni2 电极 ,该电极在KOH溶液中的循环伏安曲线于 0 30 7V/0 2 30V处有一对明显的氧化还原电流峰 ,表明Ni2 离子已嵌入PAN膜电极。PAN Ni2 电极对碱性介质中甲醇的氧化具有明显的电催化活性。     

乙二醇稳定的Pt/C催化剂的制备与表征

以乙二醇(EG)兼作溶剂和稳定剂,分别通过NaBH4和EG还原法制备了高度细化与分散的Pt/C催化剂,对其形貌、组成、结构和电化学活性比表面等进行了表征比较,并测试了它们对甲醇与乙醇电催化氧化的活性. 结果表明,2种催化剂中,Pt均为面心立方结构,粒径小且分布窄,在炭黑载体上分散均匀,单位质量Pt对甲醇与乙醇电催化氧化的活性相当;NaBH4还原法所制Pt/C催化剂中Pt0和Pt(220)晶面含量更高,Pt对甲醇与乙醇电催化氧化的峰电流密度分别为0.68与0.67 mA/cm2,分别是EG还原法所制Pt/C催化剂的1.2倍;2种催化剂对甲醇与乙醇电催化氧化的活性均与商品E-TEK催化剂相当.     

甲醇在碳载纳米Pt电极上的电化学研究

应用循环伏安法制备了nano-Pt/GC修饰电极,优化了铂微粒在电极表面的沉积条件,并用扫描电子显微镜(SEM)和在硫酸中的循环伏安曲线对其进行了表征。结果表明铂微粒较为均匀地分散在玻碳电极表面,粒径约为140nm,电极具有很大的比表面积。循环伏安实验结果表明nano-Pt/GC电极对甲醇电氧化的催化活性明显高于铂片电极,在该修饰电极上甲醇正向扫描和反向扫描时的氧化峰电位分别是0.67V和0.49V,峰电流为61.00mA/cm2和50.50mA/cm2,分别是铂片电极上的3.13倍和3.10倍,有效地提高了金属铂的利用率,铂微粒在电极表面的最佳沉积条件是循环次数为100次和沉积速度为5mV/s。     

温度及电解液浓度对电沉积法制备Pt/C电极的影响

用电化学沉积法在活性炭表面沉积Pt来制备Pt/C电极。发现改变电沉积温度和电解液中氯铂酸的浓度制备的Pt/C电极,对甲醇及CO氧化的电催化活性有很大不同。沉积条件为80℃、5 mmol.L-1H2PtC l6 0.5 mol.L-1H2SO4与沉积条件为25℃、15 mmol.L-1H2PtC l6 0.5 mol.L-1H2SO4时沉积出的Pt/C电极对甲醇氧化呈现出较高的电催化活性。     

载铂聚苯胺/聚砜复合膜修饰电极对甲醇的电催化氧化行为研究

采用循环伏安法制备聚苯胺(PAN)/聚砜(PSF)复合膜修饰电极,在其上电沉积铂粒子,制得载铂聚苯胺/聚砜复合膜修饰电极,用循环伏安法和交流阻抗法研究它对甲醇的电催化氧化行为。复合膜的化学组分用FTIR进行表征,复合膜内层载铂后的表面形态用SEM进行表征。结果表明,复合膜的内层(与工作电极接触的一面)是聚苯胺,外层(与溶液接触的一面)是聚砜,铂粒子在复合膜内层的多孔聚苯胺上均匀沉积,从而使载铂聚苯胺/聚砜复合膜修饰电极对甲醇有好的电催化氧化性能。     

WC/C制备条件对甲醇电氧化特性的影响研究

以钨酸铵为前躯体,采用程序升温控制还原法（TPR）制备了WC／C纳米颗粒,在碳载体存在的情况下,研究了钨源前躯体碳化过程中CH4与H2流量比对单-WC晶相以及Pt／WC／C电催化氧化甲醇性能的影响。XRD测试结果发现：仅在CH4：H2流量比为2时可获得单一WC多晶,其平均粒径为11．3nm。循环伏安实验结果证实：10wt％Pt-10wt％WC／C电催化氧化cH,OH的比质量活性达到875mA·mg^-1,远远高于10wt％Pt／C的658mA·mg^-1,且起始氧化电位负移80mV。计时电流法实验表明Pt／WC／C在酸性介值中稳定性高于Pt／C催化剂。     

Polyaniline‐supported platinum‐hydrous ruthenium oxide nanocomposite as electrocatalyst for methanol oxidation

A novel composite electrode is fabricated through the electrodeposition of hydrous ruthenium oxide (RuO₂·xH₂O) and platinum (Pt) particles into the matrix of polyaniline (PANI). Scanning electron microscopy reveals that RuO₂·xH₂O and Pt particles are homogeneously distributed into the matrix of PANI. A comparison of the sizes of Pt and RuO₂·xH₂O particles incorporated into the PANI film reveals that Pt particles are smaller in sizes as compared with the sizes of RuO₂·xH₂O particles. The catalytic activity of composite electrodes was evaluated for the oxidation of methanol by using cyclic voltammetry and chronoamperometry. A relatively high catalytic current was noticed for the oxidation of methanol (2.37 mA/cm²) at PANI‐Pt‐RuO₂·xH₂O electrode (+0.6 V (V vs. Ag/AgCl) in comparison to oxidation current at PAN‐Pt (1.27 mA/cm²) electrode. POLYM. COMPOS., 2009. © 2008 Society of Plastics Engineers     

A novel electrocatalytic polyaniline electrode for methanol oxidation

Pt clusters were electrodispersed on polymeric films to obtain catalytic electrodes for methanol oxidation. The electrodeposit was built up by applying either a constant potential or a repetitive square wave potential routine. The performance of the electrodes was followed by measuring the stripping peak potential of adsorbed CO, each assembly metal/Pani/Pt being characterized by SEM and EDAX. Polymeric electrodes, modified with Pt electrodeposited by the programmed potential variation had a better electrocatalytic activity for CO and methanol oxidation. The novel tailored electrode is the result of a balance between a particular morphology and the number of particles of the catalytic material on the conductive polyaniline matrix.     

纳米TiO_2-Pt修饰电极上甲醇的电催化氧化研究

用电化学法合成前驱体Ti(OEt)4,经直接水解法制备纳米TiO2膜,通过直接在纳米TiO2膜上电沉积Pt微粒得到纳米TiO2 Pt复合催化电极。扫描电子显微镜(SEM)和X射线衍射(XRD)分析结果表明,纳米TiO2的晶形为锐钛矿型,粒径约30nm,电沉积纳米Pt粒子(平均粒径约60nm)均匀地分散在纳米TiO2膜表面。循环伏安和计时电位测试表明,纳米TiO2 Pt修饰电极对甲醇的电氧化具有高催化活性和稳定性,Pt载量为0 68mg/cm2时,室温下甲醇氧化电流达到190mA/cm2,是纯Pt电极上的7 6倍。     

Effects of conductive polyaniline (PANI) preparation and platinum electrodeposition on electroactivity of methanol oxidation

A modified galvanostatic method, termed the ‘pulse galvanostatic method’ (PGM) was used to synthesize nanofibular polyaniline (PANI). In contrast to granular PANI prepared by the conventional galvanostatic method (GM), nanofibular PANI has better conductivity and higher specific surface area. The nanofibular PANI electrode modified by Pt microparticles, at the same Pt loading, exhibits a considerably higher electrocatalytic activity on the methanol oxidation than that of the granular PANI electrode modified by Pt microparticles. Furthermore, the PGM method can be used as a good method for Pt microparticle electrodeposition. The composite electrode composed of PANI and Pt microparticles has the best electrocatalytic activity in the experimental range. The effects of Pt loading and methanol concentration, on the electrocatalytic activity for methanol oxidation have also been researched.     

Electrocatalytic oxidation of methanol on Cu modified polyaniline electrode in alkaline medium

Electrolytically deposited Cu on polyaniline film covered Pt substrate (Cu/PANI/Pt) is used as anode for the electrooxidation of methanol in alkaline medium. The electrochemical behavior and electrocatalytic activity of the electrode were characterized using cyclic voltammetry, impedance spectroscopy, chronomethods, rotating disc voltammetry and polarization studies. The morphology and composition of the modified film were obtained using SEM and EDAX techniques. The electrooxidation of methanol in NaOH is found to be more efficient on Cu/PANI/Pt than on bare Cu (Cu), electrodeposited Cu on Cu (Cu/Cu) and electrodeposited Cu on Pt (Cu/Pt) substrates. Partial chemical displacement of dispersed Cu on PANI with Pt or Pd further improved its performance towards methanol oxidation.