Voltammetric Behavior(伏安行为)研究综述
Voltammetric Behavior 伏安行为 - The influence of physic-chemical parameters like scan rate, pH, accumulation time, and amount of the modifier, excipients, metal ions and concentration on the voltammetric behavior of an analyte were studied. [1] The possible coordination structure and the voltammetric behavior of the metal ions were carefully studied. [2] To address the lack of knowledge of the voltammetric behavior of the cephalosporin antibiotics, a selection of cephalosporin antibiotics and two main intermediates were subjected to an electrochemical study of their redox behavior by means of pulsed voltammetric techniques and small-scale electrolysis combined with HPLC-MS/MS analyses. [3] For that, the voltammetric behavior of a β-cyclodextrin electropolymerization on a carbon glassy electrode (CGE) surface and the mechanism involved was investigated. [4] Voltammetric behavior of Mep was investigated in Britton Robinson (BR) buffer as electrolyte in pH range 2-10. [5] A visible light-activated photocathode fabricated with p-type semiconductor bismuth oxyiodide (BiOI) and graphene (G) was employed to investigate the photovoltammetric behavior of chloramphenicol (CAP). [6] In this paper, the voltammetric behavior of 25I-NBOH and 2C-I was investigated and their electroanalytical characteristics were determined. [7] The study on voltammetric behavior of Bi2(MoO4)3/Ti cathode found that Bi2Mo3O12 had a dual electrochemical catalysis for H2O2 production, and that was further verified by the high yield of H2O2 for short time in bulk electrolysis. [8] The influence of physic-chemical parameters like scan rate, pH, accumulation time, amount of the modifier and concentration on the voltammetric behavior of an analyte were studied. [9] Digital simulations of the experimental cyclic voltammograms show that the three possible dimerization reactions, radical anion-radical anion, radical anion-dianion and neutral-dianion, have a different effect on the voltammetric behavior. [10] Thus, the voltammetric behavior of LD at the surface of DNA/rGO–Fe3O4-CPE was studied using differential pulse voltammetry (DPV) where the oxidation peak current of LD was measured as an analytical signal. [11] The voltammetric behavior of the β-CD/MWCNTs electrode in the presence of the BPS was studied, and an irreversible oxidation peak current was obtained at about 0. [12] Comparison of the voltammetric behavior of wild-type and a PYO-deficient mutant unequivocally identifies PYO as a major component of the secretome. [13] The voltammetric behaviors of DENV RNAs were examined at different volume ratio with matched and mismatched RNAs. [14] The voltammetric behavior of the vardenafil was investigated by means of square wave stripping voltammetry (SWSV), differential pulse stripping voltammetry (DPSV) and cyclic voltammetry (CV) on the modified electrodes constructed by graphite, metal oxide and functionalized multi-walled carbon nanotubes (MWCNT). [15]研究了扫描速率、pH、积累时间和改性剂、赋形剂、金属离子和浓度等物理化学参数对分析物伏安行为的影响。 [1] 仔细研究了金属离子可能的配位结构和伏安行为。 [2] 为解决对头孢菌素类抗生素伏安行为缺乏了解的问题,通过脉冲伏安技术和小规模电解结合 HPLC-MS,对选择的头孢类抗生素和两种主要中间体的氧化还原行为进行电化学研究/MS 分析。 [3] 为此,研究了碳玻璃电极 (CGE) 表面上 β-环糊精电聚合的伏安行为及其所涉及的机理。 [4] Mep 的伏安行为在 Britton Robinson (BR) 缓冲液中作为 pH 范围 2-10 的电解质进行了研究。 [5] 用 p 型半导体碘化铋 (BiOI) 和石墨烯 (G) 制造的可见光激活光电阴极用于研究氯霉素 (CAP) 的光伏行为。 [6] 本文研究了 25I-NBOH 和 2C-I 的伏安行为,并确定了它们的电分析特性。 [7] 对Bi2(MoO4)3/Ti正极的伏安行为研究发现,Bi2Mo3O12对H2O2的产生具有双重电化学催化作用,并在本体电解中短时间高产H2O2进一步验证了这一点。 [8] 研究了扫描速率、pH、积累时间、改性剂用量和浓度等物理化学参数对分析物伏安行为的影响。 [9] 实验循环伏安图的数字模拟表明,三种可能的二聚反应,自由基阴离子-自由基阴离子、自由基阴离子-双阴离子和中性双阴离子,对伏安行为有不同的影响。 [10] 因此,使用差分脉冲伏安法(DPV)研究了 LD 在 DNA/rGO-Fe3O4-CPE 表面的伏安行为,其中 LD 的氧化峰电流作为分析信号进行测量。 [11] 研究了β-CD/MWCNTs电极在BPS存在下的伏安行为,在0左右获得了不可逆的氧化峰电流。 [12] 野生型和 PYO 缺陷突变体的伏安行为比较明确地将 PYO 确定为分泌组的主要成分。 [13] 用匹配和不匹配的 RNA 在不同的体积比下检查 DENV RNA 的伏安行为。 [14] 采用方波溶出伏安法(SWSV)、差分脉冲溶出伏安法(DPSV)和循环伏安法(CV)在石墨、金属氧化物和功能化多壁碳纳米管构建的修饰电极上研究了伐地那非的伏安行为。 MWCNT)。 [15]
glassy carbon electrode 玻碳电极
The cyclic voltammetric behavior of newly synthesized biologically active azomethine 2’-hydroxyacetophenone sulfamethoxazole (2’-HyAcPhSM) was examined at glassy carbon electrode in acetonitrile, acetone, methanol and DMF solvents using phosphate buffer and Britton-Robinson (BR) buffer. [1] In the present study, the voltammetric behavior of TPA was studied using glassy carbon electrode with pH ranging from 4. [2] The voltammetric behavior of antihypertensive drug trandolapril (TRD) was investigated on glassy carbon electrode (GCE) that modified by cigarette filter derived char/Nitrogen doped carbon spheres (c-char/NCS). [3]使用磷酸盐缓冲液和 Britton-Robinson (BR) 缓冲液在乙腈、丙酮、甲醇和 DMF 溶剂中的玻碳电极上检测了新合成的生物活性偶氮甲碱 2'-羟基苯乙酮磺胺甲恶唑 (2'-HyAcPhSM) 的循环伏安行为。 [1] 在本研究中,使用 pH 值范围为 4 的玻碳电极研究了 TPA 的伏安行为。 [2] nan [3]
square wave voltammetry 方波伏安法
The voltammetric behavior of Thyroxine (T4) was studied using square wave voltammetry in phosphate buffer solution at (pH 7. [1] The voltammetric behavior of Thyroxine (T4) was studied using square wave voltammetry in phosphate buffer solution at (pH 7. [2] The cyclic voltammetry (CV) and square wave voltammetry (SWV) methods were used to investigate the effect of accumulation time, scan rate, pH, concentration, excipients, and metal ions on the voltammetric behavior of the drug. [3]使用方波伏安法在磷酸盐缓冲溶液中(pH 7.0)研究甲状腺素 (T4) 的伏安行为。 [1] 使用方波伏安法在磷酸盐缓冲溶液中(pH 7.0)研究甲状腺素 (T4) 的伏安行为。 [2] nan [3]
accumulation time scan 累积时间扫描
Effect of parameters such as accumulation time, scan rate, pH, concentration, excipients on the voltammetric behavior of the drug was studied by various voltammetric techniques. [1] Effect of accumulation time, scan rate, pH, concentration, excipients, and metal ions on the voltammetric behavior of the drug was studied by various voltammetric techniques. [2] Effect of accumulation time, scan rate, pH, concentration, excipients, and metal ions on the voltammetric behavior of the drug was studied by various voltammetric techniques. [3]通过各种伏安技术研究了积累时间、扫描速率、pH、浓度、赋形剂等参数对药物伏安行为的影响。 [1] 通过各种伏安技术研究了积累时间、扫描速率、pH、浓度、赋形剂和金属离子对药物伏安行为的影响。 [2] nan [3]
% v v % v v
In this paper, the voltammetric behavior of the Ag+/Ag0 system was investigated in milli-Q water, 3% v/v acetic acid/milli-Q water, 10% v/v, 20% v/v and 50% v/v ethanol/milli-Q water media, which, according to the European Commission recommendations, can be employed as simulants of liquid foods for tests regarding the release of contaminants from plastic food packaging. [1] Voltammetric behavior of LA on both a carbon fiber microelectrode (CF) and a glassy carbon macroelectrode (GCE) in an optimized composition of the solutions of acetic acid with acetonitrile (20%, v/v), as well as sodium acetate as a supporting electrolyte, was investigated. [2]本文研究了 Ag+/Ag0 体系在 milli-Q 水、3% v/v 乙酸/milli-Q 水、10% v/v、20% v/v 和 50% v/ 中的伏安行为。 v 乙醇/milli-Q 水介质,根据欧盟委员会的建议,可用作液体食品的模拟物,用于测试塑料食品包装中污染物的释放。 [1] LA 在碳纤维微电极 (CF) 和玻璃碳大电极 (GCE) 上的伏安行为,其中醋酸与乙腈 (20%, v/v) 的溶液以及作为支撑物的乙酸钠溶液的优化组成电解质,进行了调查。 [2]
Cyclic Voltammetric Behavior 循环伏安行为
The cyclic voltammetric behavior of newly synthesized biologically active azomethine 2’-hydroxyacetophenone sulfamethoxazole (2’-HyAcPhSM) was examined at glassy carbon electrode in acetonitrile, acetone, methanol and DMF solvents using phosphate buffer and Britton-Robinson (BR) buffer. [1] Furthermore, the cyclic voltammetric behavior of Ses and the effects of scan rate and pH on the peak current and peak potential of Ses were determined. [2] 1 by weight) composites were synthesized, and their cyclic voltammetric behaviors were studied. [3]使用磷酸盐缓冲液和 Britton-Robinson (BR) 缓冲液在乙腈、丙酮、甲醇和 DMF 溶剂中的玻碳电极上检测了新合成的生物活性偶氮甲碱 2'-羟基苯乙酮磺胺甲恶唑 (2'-HyAcPhSM) 的循环伏安行为。 [1] 此外,还确定了 Ses 的循环伏安行为以及扫描速率和 pH 值对 Ses 峰电流和峰电位的影响。 [2] nan [3]
Stripping Voltammetric Behavior 剥离伏安行为
Electrochemical features were explored via electrochemical impedance spectroscopy and cyclic voltammetry whereas the stripping voltammetric behavior of modified electrodes was analyzed by utilizing square wave anodic stripping voltammetry. [1] The stripping voltammetric behavior of dye exhibits very low limit of detection on graphene coated electrode (30 ppb). [2]通过电化学阻抗谱和循环伏安法探索电化学特征,而利用方波阳极溶出伏安法分析修饰电极的溶出伏安行为。 [1] 染料的剥离伏安行为在石墨烯涂层电极上表现出非常低的检测限 (30 ppb)。 [2]