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研究了一种新型纳米铂修饰玻碳电极的制备方法,并对其电化学催化性能进行了研究。实验结果表明,通过电沉积前在金刚石粉末悬浊液中对玻碳电极进行超声处理,可制备出新型玻碳电极。经超声处理后,金刚石颗粒在玻碳电极基体上产生了数微米长的划痕。电沉积过程中,在该电极上可沉积分布较密集的平均尺寸为110nm的Pt颗粒。这种新型纳米铂修饰玻碳电极的表面电化学活性值为0.397 m2/g,高于普通铂修饰玻碳电极,且在0.5 mol/L H2SO4溶液中具有良好的电化学稳定性。 相似文献
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将石墨烯涂覆在玻碳电极表面,制备了石墨烯/玻碳电极(Gr/GCE)。用循环伏安法(Cyclic voltammetry,CV)将组氨酸修饰在石墨烯/玻碳电极表面,制成了聚组氨酸/石墨烯玻碳电极(polyHiS/Gr/GCE)。用该修饰电极对曲克芦丁水解物进行电化学检测,实验表明,在最优条件下,该修饰电极对曲克芦丁水解物有显著的电催化作用,其氧化峰电流与其浓度在2.0×10-6~4.0×10-4mol·L-1范围内呈良好的线性关系,相关系数为R=0.9996,检出限为1.25×10-6mol·L-1。此方法可应用于实际样品的测定。 相似文献
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聚乙烯醇修饰电极的研制及应用 总被引:3,自引:0,他引:3
本文提出用玻碳电极为基体制作聚乙烯醇(PVA)修饰电极。研究了铜在该电极上的阳极溶出伏安特性。探讨了电极修饰及其作用机理。电极可用于水中痕量铜的测定,灵敏度比未修饰玻碳电极提高一个数量级以上。 相似文献
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烟酰胺辅酶在聚甲苯胺蓝膜修饰的玻碳电极上的电催化氧化 总被引:6,自引:0,他引:6
用循环伏安法在玻碳电极上电沉积一层稳定的甲苯胺蓝聚合物膜 ,研究了这层膜在 0 .2mol/L磷酸缓冲溶液 (pH 6 .86 )中的电化学性质 ,并且考察了该膜修饰的玻碳电极对烟酰胺辅酶 (NADH)的电催化作用 ,用旋转圆盘电极测量了NADH在该修饰电极上的催化反应常数。实验发现 ,在该修饰电极上 ,NADH氧化峰电位比未修饰的玻碳电极负移了 4 5 0mV ,且其催化反应速率常数为 3.5× 10 3 L·mol-1·s-1,说明聚甲苯胺蓝膜对NADH有良好的电催化作用 相似文献
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采用阴离子交换分离,碳纳米管修饰电极安培检测离子色谱电化学法测定盐酸麻黄碱.在优化条件下,用碳酸钠溶液和甲醇溶液混合溶液为淋洗液,用碳纳米管修饰玻碳电极,在0.8 V电位处进行直流安培检测.结果发现在碳纳米管修饰玻碳电极后盐酸麻黄碱的电流响应值比未修饰前大大增加,方法的灵敏度比未修饰电极提高了10倍,用未修饰电极测定的检出限为2.4 μg·L-1,用修饰电极测定的检出限为0.2 μg·L-1,样品加标回收率为103.6%.. 相似文献
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制备了Keggin型磷钨酸/2-氨基吡啶电聚合复合膜修饰电极,研究了该复合膜修饰电极的电化学性质。结果表明,在BR缓冲溶液中,该复合膜修饰电极显示出3对氧化还原峰,对应于表面电沉积的磷钨酸的电化学作用,其电化学行为受表面吸附控制。该电极对维生素B2(VB2)具有良好的电催化作用,根据VB2的电化学行为,推断出了可能的电极反应机理,计算出VB2在该电极上的电荷转移系数为0.357,电荷转移速率常数为0.042 s-1,推断其在该电极上的行为为准可逆过程。在2.4×10-6~1.0×10-4 mol/L和1.0×10-4~5.5×10-4 mol/L 范围内峰电流与VB2浓度呈良好的线性关系,其检出限为1.4×10-6 mol/L。该电极显示出良好的稳定性和重现性,用于复合维生素药片中VB2含量的测定,结果满意。 相似文献
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氧化锌纳米簇-金纳米颗粒-壳聚糖复合膜修饰电极用于示差脉冲伏安法测定吗啡 总被引:1,自引:0,他引:1
将制备的氧化锌纳米簇和金纳米颗粒分散在壳聚糖中并滴涂在玻碳电极表面,制备了氧化锌纳米簇-金纳米颗粒-壳聚糖复合膜修饰电极(Au-ZnO-CHIT/GCE)。采用循环伏安法研究了吗啡在修饰电极上的电化学行为。结果表明:吗啡在该修饰电极上出现了一个氧化峰,提出了用示差脉冲伏安法测定吗啡的方法。吗啡浓度在5.3×10-6~6.5×10-4mol.L-1范围内与氧化峰电流呈线性关系,检出限(3S/N)为1.8×10-6mol.L-1。修饰电极用于尿液中吗啡的测定,回收率在80.0%~99.6%之间。 相似文献
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石墨烯修饰玻碳电极测定邻苯二酚 总被引:2,自引:0,他引:2
制备了用于测定邻苯二酚(CAT)的石墨烯修饰电极,并应用循环伏安法研究了CAT在该修饰电极上的电化学行为;用差分脉冲伏安法研究了测试底液的pH值对该修饰电极性能的影响,结果表明,此修饰电极在含不同浓度CAT的PBS溶液(pH=7.0)中测定,响应电流与CAT浓度在5.0×10-8~5.6×10-4mol/L范围内有良好的线性关系,相关系数r=0.9919,检出限为6.68×10-9mol/L(S/N=3)。与其它几种修饰电极相比,石墨烯修饰电极制备简单、响应时间快、操作简便,稳定性和重现性良好,有应用价值。 相似文献
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The preparation and electrochemical properties of a glassy carbon (GC) electrode modified with cobaloxime complex were investigated. The complex of the type [CoIII(DO)(DOH)pn)Cl2] where (DO)(DOH)pn = N2,N2'-propanediylbis-2,3-butanedione-2-imine-3-oxime) was adsorbed irreversibly and strongly on the surface of preanodized glassy carbon electrode. Electrochemical behavior and stability of modified GC electrode were investigated by cyclic voltammetry. The electrocatalytic reduction of dioxygen has been studied using this modified glassy carbon electrode by cyclic voltammetry, chronoamperometry and rotating disk electrode voltammetry as diagnostic techniques. The modified electrode showed excellent eletrocatalytic ability for the reduction of dioxygen to hydrogen peroxide in acetate buffer (pH 4.0) with overpotential 1.0 V lower than the plain glassy carbon electrode. The formal potential for this modified electrode is not shifted to more negative potentials by repeated reduction-oxidation cycles in oxygen-saturated supporting electrolyte solution. The apparent electron transfer rate constant (kS), the transfer coefficent (alpha) and the catalytic rate constant of O2 reduction at a GC modified electrode were determined by cyclic voltammetry and rotating disk electrode voltammetry and were found to be around 2.6 s(-1), 0.33 and 2.25 x 10(4) M(-1) s(-1). Based on the results, a catalytic mechanism is proposed and discussed. 相似文献
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A glassy carbon electrode modified with carbon nanotube and bimetallic inorganic‐organic nanofiber hybrid nanocomposite was prepared and used for determination of trace levels of guaifenesin. A modified glassy carbon electrode was developed for the rapid, selective, sensitive and low cost monitoring of guaifenesin. Oxidation of guaifenesin on the surface of the modified electrode was investigated with differential pulse voltammetry and the results showed that the modified electrode remarkably improved sensitivity and selectivity for the electrochemical assay of guaifenesin. Detection limit and quantitation limit were found to be 0.0175 µM and 0.0583 µM, respectively. 相似文献
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In this study, a Tosflex (a perfluoro‐anion‐exchange membrane) modified glassy carbon electrode has been used to detect 2‐naphthalenol (2‐naphthol) in aqueous solutions in order to demonstrate the electroanalytical application of Tosflex. 2‐naphthol polymerizes upon electrochemical oxidation at a glassy carbon electrode; however, the current related to this oxidation is too small for analytical purpose at low concentration level. A Tosflex polymer modified glassy carbon electrode (TFGCE) was found of having capability to improve the detection limit because 2‐naphthol molecules deprotonated in basic solutions to form 2‐naphtholate anions that were accumulated to TFGCE by the anion‐exchange characteristic of Tosflex. The accumulated 2‐naphtholate anions were determined with the following differential pulse voltammetry. With 3 minutes accumulation at +0.05 V, the dependence of oxidation current versus concentration was linear from 8×10?7 M to 1×10?5 M with a regression coefficient of 0.999 and a detection limit of 2×10?7 M. Unlike many other anion‐exchange polymer modified electrodes, the TFGCE is stable at highly basic condition. 相似文献