新型CNT/nano-TiO_2复合膜电极的制备及其异相电催化性能

采用溶胶-凝胶法制备了碳纳米管/纳米TiO2(CNT/nano-TiO2)复合溶胶,通过提拉法将复合溶胶涂覆在Ti基体上制得CNT/nano-TiO2复合膜修饰电极(C电极),其电化学性能经循环伏安、计时库仑、交流阻抗谱(EIS)等方法研究.研究结果表明,CNT可阻碍nano-TiO2粒子团聚.在循环伏安图中,C电极的氧化还原峰电流比nano-TiO2膜修饰电极(P 电极)的高出两倍多.通过对草酸溶液的异相电催化反应进一步证明C电极比P电极具有更高的电催化活性,而且对双氧水也有很强的异相电催化还原能力.     

双-Keggin型四元杂多化合物[Nd(SiMo7W4O39)2]13-多层膜在化学修饰玻碳电极上的组装及电催化

报道双-Keggin型四元杂多化合物K10H3[Nd(SiMo7W4O39)2]XH2O(简称[Nd(SiMo7W4)2]^13-）聚合物的交替组装多层膜在4-氨基苯甲酸修饰玻碳电极上的制备及其电化学特性。各层的循环伏安行为证明膜的均匀增长，峰电流随层数的增加而增加，与溶液中的电化学行为相比，位于多层膜中的杂多化合物的氧化还原特征峰随着多层膜层数的增加，具有一定程度的形变。该电极具有较高的稳定性。并讨论了pH对其氧化还原行为的影响，考察了该多层膜修饰电极对BrO3^-、HNO2和H2O2等的电催化性能。     

TiO2-WO3负载硅钨酸盐聚苯胺膜电极的电化学行为及电催化性能研究

用循环伏安法制备了金属氧化物(TiO2-WO3)负载硅钨酸盐聚苯胺膜修饰玻碳电极(PAn/SiW12/TiO2-WO3/GC),优化了聚合条件,并对该化学修饰电极的电化学行为,包括溶液pH值的影响和电极的稳定性等进行了研究。研究结果表明,此修饰电极聚合物膜不但保持了该杂多酸的电化学活性和电催化性能,又具有良好的稳定性。在0.5 mol/LH2SO4溶液中,该膜电极中的SiW12的第2个还原峰对BrO3-有很好电催化活性,催化过程符合EC平行催化机理。     

聚邻苯二胺修饰玻碳电极的制备及电催化性能

在磷酸盐缓冲溶液中研究了邻苯二胺在玻碳电极表面的聚合过程,探讨了各氧化还原峰的变化机理,用扫描电镜表征了聚邻苯二胺膜的形态结构。发现制备的聚邻苯二胺膜修饰电极对H2O2有显著的电催化还原特性,线性回归方程为:Δipa(μA)=-1.63 1.07cH2O2(mmol.L-1)(R=0.9947,n=19),线性范围为:5.89×10-2mmol.L-1~44.4 mmol.L-1,检出限为:0.02 mmol.L-1(3S/k),这对与产生H2O2的氧化酶相结合制备出响应各种底物的电化学生物传感器非常重要。考察了制备条件对膜电极电催化还原活性的影响,发现只有在弱酸条件下制备的膜电极才有较高的电催化活性。探讨了影响膜电极电催化还原灵敏度的因素,并考察了膜电极的稳定性。     

蒽醌/聚吡咯复合膜修饰电极的电化学行为和电催化活性

在水溶液中制备了掺杂蒽醌磺酸盐(AQS)的聚吡咯(PPy)/玻碳复合膜修饰电极,采用循环伏安法和旋转圆盘电极技术研究了该修饰电极在不同pH值溶液中的电化学行为以及在pH=5.5的磷酸盐缓冲溶液中对氧还原反应的电催化性能和动力学.结果表明,与裸玻碳电极相比,PPy膜的存在不仅降低了AQS的反应电位和峰电位差,而且增大了其氧化还原反应的峰电流,H2AQ/HAQ-氧化还原对的电离常数为9.5.AQS/PPy膜修饰电极上氧的还原主要是两电子还原为H2O2的不可逆过程,H2AQ对氧还原反应起主要催化作用,还原过程符合异相氧化还原催化机理.该修饰电极具有良好的电化学重现性.     

Keggin型缺位硅钨杂多阴离子的电化学性质及电催化还原H2O2

应用循环伏安、方波伏安和交流阻抗法研究了Keggin型缺位硅钨杂多阴离子SiW11O398-(SiW11)在0.1mol.L-1NaHSO4+Na2SO4溶液中的电化学性质及其对H2O2还原的间接电催化作用.结果表明,SiW11的酸性水溶液在玻碳(GC)电极上显示两对可逆的还原-氧化波,对应的电荷迁移数均为1,且有2个质子参与反应.根据第1对波的还原峰电流与扫描速率平方根关系得到SiW11在溶液中的扩散系数DO为8.92×10-6cm2.s-1.SiW11对H2O2的还原具有明显的电催化活性,催化峰电位随溶液pH的降低而正移,峰电流增大.质子H+在催化反应中起协同促进作用.实验测定该电催化过程的均相准一级反应速率常数为0.30 s-1.SiW11电催化还原H2O2的机理被认为是经过形成所谓"七配位过氧化物"而发生的.     

乳过氧化物酶与伴刀豆球蛋白A共修饰电极的电化学活性研究

用乳过氧化物酶(LPO)和伴刀豆球蛋白A(Con A)共修饰金电极,首次得到了乳过氧化物酶的直接电化学响应,在此基础上研究了乳过氧化物酶对过氧化氢(H2O2)的电催化活性,并研究了一氧化氮(NO)对LPO电催化活性的影响.在Con A的作用下,乳过氧化物酶在循环伏安图中显示1对准可逆的氧化还原峰,表现出薄层电化学行为.在pH 7.4的磷酸缓冲溶液中的表观氧化还原电位为 -190 mV.该共修饰电极对H2O2表现出电催化还原活性,由此构建的传感器对H2O2的检测范围是2.0×10-5 ～4.0×10-3 mol/L.实验发现,微摩尔量级的NO会抑制乳过氧化物酶对H2O2的催化活性.     

NiCo_2O_4对H_2O_2在碱性溶液中电化学还原反应的催化行为(英文)

利用溶胶-凝胶法合成纳米NiCo2O4,并利用X射线衍射和透射电镜分析其结构和表面形貌.结果表明NiCo2O4具有尖晶石结构,平均粒径约为15 nm.利用电势线性扫描和恒电势法测定了其对H2O2在碱性溶液中电化学还原反应的催化性能.发现NiCo2O4对H2O2电化学还原具有高的催化活性和稳定性,在H2O2浓度低于0.6 mol.L-1时,其电化学还原反应主要通过直接还原途径进行.以NiCo2O4为阴极催化剂的Al-H2O2半燃料电池在室温下的开路电压达1.6 V;在1.0 mol.L-1 H2O2溶液中,峰值功率密度达209 mW.cm-2,此时电流密度为220mA.cm-2.     

NiCo2O4对H2O2在碱性溶液中电化学还原反应的催化行为

利用溶胶-凝胶法合成纳米NiCo2O4,并利用X射线衍射和透射电镜分析其结构和表面形貌. 结果表明NiCo2O4具有尖晶石结构, 平均粒径约为15 nm. 利用电势线性扫描和恒电势法测定了其对H2O2在碱性溶液中电化学还原反应的催化性能. 发现NiCo2O4对H2O2电化学还原具有高的催化活性和稳定性, 在H2O2浓度低于0.6 mol·L-1时, 其电化学还原反应主要通过直接还原途径进行. 以NiCo2O4为阴极催化剂的Al-H2O2半燃料电池在室温下的开路电压达1.6 V; 在1.0 mol·L-1 H2O2溶液中, 峰值功率密度达209 mW·cm-2, 此时电流密度为220 mA·cm-2.     

新型1-烷基-2,3-二甲基咪唑六氟磷酸盐离子液体/过氧化氢酶电极电化学性能研究与应用

合成了5种新型1-烷基-2,3-二甲基咪唑六氟磷酸盐类离子液体,并以离子液体为介质制备空白电极及过氧化氢酶电极.采用循环伏安法研究电极电化学行为,结果表明离子液体有优良的电化学性质.离子液体空白电极的基体峰电流都在数nA范围内,电化学窗口大于4 V;不同离子液体酶电极的电化学行为存在明显差异.在5种离子液体中,仅有1-戊基-2,3-二甲基咪唑六氟磷酸盐能很好地保持酶活,呈现灵敏的电化学响应.此外,该酶电极还具有良好的稳定性,4 ℃保存30 天后,电化学性质没有明显变化.在0.1 mol/L的H3PO4缓冲溶液(pH 7.0)中,该酶电极还原峰电流随溶液中H2O2浓度的增加而增大.当H2O2浓度在3.17×10-6～12.4×10-6 mol/L之间,酶电极的还原峰电流符合线性关系,其检出限为1.1×10-6 mol/L.方法已用于环境水中痕量H2O2的测定.     

单缺位磷钨杂多酸聚吡咯修饰电极的制备及其电化学性能

在玻碳电极（ＧＣ）上,用电化学方法将单缺位Ｄａｗｓｏｎ型磷钨杂多酸盐Ｋ１０Ｐ２Ｗ１７Ｏ６１·１５Ｈ２Ｏ的阴离子（Ｐ２Ｗ１７）掺杂到聚吡咯（ＰＰＹ）薄膜中制成的Ｐ２Ｗ１７／ＰＰＹ／ＧＣ化学修饰电极,既保持了该杂多酸的电化学活性和电催化性能,又具有良好的稳定性与灵敏度。     

镧取代Dawson型磷钨杂多酸聚吡咯修饰电极的制备及其电化学性能

通过缺位填充法合成了分子式为α２－Ｋ７Ｐ２Ｗ１７Ｏ６１（Ｌａ· ＯＨ２）的镧（Ⅲ）取代十八钨磷酸盐。在玻碳电极（ＧＣ）上,用电化学方法将单取代Ｄａｗｓｏｎ型杂多酸盐α２－Ｋ７Ｐ２Ｗ１７Ｏ６１（Ｌａ·ＯＨ２）的阴离子（Ｐ２Ｗ１７Ｌａ）掺杂到聚吡咯（ＰＰＹ）薄膜中制成Ｐ２Ｗ１７Ｌａ／ＰＰＹ／ＧＣ化学修饰电极,既保持该杂多酸的电化学活性和电催化性能,又具有良好的稳定性和灵敏度。研究表明, ０． ５０ ｍｏｌ／Ｌ ＨＣＩ溶液中,聚吡咯薄膜中 Ｐ２Ｗ１７Ｌａ的第一对氧化还原峰对 ＮＯ２的电还原具有良好的催化活性,其催化电流与 ＮＯ２浓度在 ６．０ × １０－５－ １．０ × １０－２ｍｏｌ／Ｌ范围内呈线性关系。     

Direct Electrochemistry of Cytochrome c on a Silica Sol‐Gel Film Modified Electrode

Dilute silica sol‐gel was simply dropped on the surface of a basal plane graphite electrode (BPGE) to form a silica sol‐gel film modified electrode. Direct electrochemical response of cytochrome c (Cyt c) on the modified electrode was observed by cyclic voltammetry (CV). The results suggested that Cyt c could be tightly adsorbed on the surface of the silica sol‐gel film modified electrode. A couple of well‐defined and nearly reversible redox peaks can be observed in a phosphate buffer solution (pH 7.0), which anodic and cathodic peak potentials were at ?0.243 and ?0.306 V (vs. Ag/AgCl), respectively. Cyt c adsorbed on the surface of silica sol‐gel film shows a remarkable electrocatalytic activity for the reduction of oxygen. Based on these, a third‐generation biosensor could be constructed to detect the concentration of oxygen in aqueous solution.     

纳米溶胶-凝胶膜修饰电极及电化学催化性能

报道了以纳米硅溶胶-凝胶（sol-gel）膜为载体的化学修饰电极。用sol-gel法在金电极上固定亚甲蓝及硫堇，发现固定于纳米硅溶胶-凝胶膜内的亚甲蓝和硫堇均有良好的电化学活性，并对同时固定于膜内的NADH、血红蛋白等生物分子产生显著的催化氧化还原作用。     

Electrochemistry of Multilayers of Graphene and Myoglobin Modified Electrode and Its Biosensing

A multilayers of graphene (GR) and myoglobin (Mb) modified electrode was fabricated with a layer of chitosan film. Electrochemical behaviors of the modified electrode were studied by cyclic voltammetry, which exhibited a couple of well‐behaved, stable and quasi‐reversible cathodic and anodic peaks, indicating that Mb realized its direct electron transfer on the biosensor. The experimental result may be accredited to the existence of multilayers conductive GR nanosheets that could provide big specific surface area, fine biological compatibility and ultrahigh electron transfer route for the immobilized Mb. The catalytic reduction peak currents of the biosensor to the detection of trichloroacetic acid were established from 0.6 to 26.0 mM accompanied with the detection limit as 0.15 mM (3σ). Therefore a novel third‐generation mediator‐free electrochemical sensor was successful prepared with the usage of multilayers of GR.     

Renewable Surface Sol‐gel Derived Carbon Ceramic Electrode Modified with Copper Complex and Its Application as an Amperometric Sensor for Bromate Detection

A sol‐gel technique was used for the preparation of a three dimensional carbon composite electrode modified with [Cu(bpy)₂]Br₂ complex. A reversible redox couple of Cu(II)/Cu(I) is observed at the electrode surface. The electrochemical behavior and stability of the modified electrode was characterized by cyclic voltammetry. The charge transfer coefficient (α) and charge transfer rate constant (K_s) for the modified electrode were determined by cyclic voltammetry, which were found to be 0.46 and 14.2 s^?1, respectively. The modified electrode showed excellent catalytic activity toward bromate reduction at significantly reduced overpotentials and can be used successfully for amperometric detection of bromate. Under the optimized conditions, the calibration plots are linear in the concentration range 0.5 μM ?200μM. Detection limit (signal to noise is 3) and sensitivity were found to be 0.1 μM and 20 nA / μM, respectively. These analytical parameters compare favorably with those obtained with modern analytical techniques. The modified carbon ceramic electrode doped with Cu‐Complex shows a good reproducibility, a short response time (t<2 s), remarkable long term stability (>4 months) and especially good surface renewability by simple mechanical polishing (RSD for 6 successive polishing is 1.5%).     

Electrochemical synthesis of nano-cobalt hexacyanoferrate at a sol–gel-coated electrode templated with β-cyclodextrin

The paper describes the time-dependent evolution of the electrochemical deposition of cobalt hexacyanoferrate (CoHCFe) on graphite foil electrode modified with electrochemically formed sol–gel film doped with β-cyclodextrin to impart porosity. With short-time electrodeposition, cyclic voltammetry (CV) shows a single redox couple typical of nano-sized clusters of CoHCFe, while at longer deposition times the CV’s shape evolves to the classical form of a bulk compound in which there are present two redox couples. The electrode modified with β-cyclodextrin (CD) included in the sol–gel film has an active surface that corresponds to pores created by CD stacks normal to the surface. Hence, the electrochemical formation of CoHCFe starts in these conductive pores; only at long deposition times do the clusters overlap to form moieties with the voltammetric characteristics of bulk CoHCFe.     

四磺酸酞菁铜—DDAB表面活性剂薄膜电极对卤代乙酸的电化学催化

四磺酸酞菁铜阴离子（ＣｕＰｃＴｓ＾４－）在水溶液中可借助离子交换进入阳离子表面活性剂双十二烷基二甲基溴化铵（ＤＤＡＢ）薄膜电极，从而形成ＣｕＰｃＴＳ＾４－－ＤＤＡＢ薄膜电极，循环伏安实验表明，在ＫＢｒ溶液中，该薄膜电极有一对良好的还原氧化峰，阴阳极峤电位分别为－０．７８Ｖ和－０．６５Ｖ（ｖｓ．ＳＣＥ）．探讨了该薄膜电极的电化学行为，特别是对其各种卤代乙酸的电化学催化，对其机理进行了推测。