Activated Bentonite Modified-Carbon Paste Electrode for Determination The Level of Copper Ion (Cu2+) in Tomato

Irdhawati Irdhawati, Ekki Inur Ingtyas Mawarni, Ayu Jyostosya Yotirani Arya Wijana, Feby Silvia Sitio, Ni Putu Gita Widi Saraswati, E. Sahara
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Abstract

Voltammetry is an electroanalytical method measure current as a function of applied potential. The working electrode in the voltammetry method dramatically affects the result of the electrochemical analysis. Modification of the working electrode can improve measurement performance. In this research, the carbon paste electrode (CPE) was modified with Bentonite (CPEB) to determine copper's level using differential pulse voltammetry technique. CPE and CPEB were used as working electrodes, handmade Ag/AgCl as a reference electrode, and Pt wire as the counter electrode. The measurement parameters were optimized, including the composition of bentonite in carbon paste and scan rates. Furthermore, the measurement conditions were validated, involved linear concentration range, detection limit (LoD), the limit of quantization (LoQ), repeatability, and recovery. The results showed that bentonite's optimum composition was 40% of the total weight of graphite and activated bentonite.  The scan rate optimum for Cu 2+ measurement was obtained at 20 mV/s with CPE and became faster to be 25 mV/s with CPEB. The linearity of the standard solution measurement of Cu 2+ using CPE was in the range of 5 to 100 μg/L and changed to 5 to 500 μg/L using CPEB. LoD and LoQ values of standard solution Cu 2+ measurement with CPEB were slower than CPE. The Horwitz ratio calculation was smaller than two for both CPE and CPEB. The recovery of Cu 2+ standard measure in sample solution as the matrix was obtained 93,49 ± 6,39%. According to the Decree of the Ministry of Health Number, the level of Cu2+ in the tomato sample was found 6.019 ± 0.69 mg/kg, which is over than threshold value of Cu2+ (5 mg/kg) 03725/B/SK/VII/89.
活化膨润土改性碳糊电极测定番茄中铜离子(Cu2+)的含量
伏安法是一种电分析方法,测量电流作为外加电位的函数。伏安法中的工作电极对电化学分析的结果影响很大。修改工作电极可以提高测量性能。本研究采用膨润土(CPEB)修饰碳糊电极(CPE),利用差分脉冲伏安法测定铜的含量。工作电极为CPE和CPEB,参比电极为手工制作的Ag/AgCl,对电极为Pt丝。对碳膏中膨润土的组成和扫描速率进行了优化。并对该方法的线性浓度范围、检出限(LoD)、定量限(LoQ)、重复性和回收率进行了验证。结果表明,膨润土的最佳组成为石墨和活化膨润土总重量的40%。CPE的最佳扫描速率为20 mV/s, CPEB的最佳扫描速率为25 mV/s。CPE法测定cu2 +标准溶液的线性范围为5 ~ 100 μg/L, CPEB法测定的线性范围为5 ~ 500 μg/L。CPEB测定标准溶液cu2 +的LoD和LoQ值比CPE慢。CPE和CPEB的Horwitz比值计算值均小于2。以样品溶液为基体的cu2 +标准量的回收率为93,49±6,39%。根据卫生部第1号法令,番茄样品中Cu2+的含量为6.019±0.69 mg/kg,超过了Cu2+的阈值(5 mg/kg) 03725/B/SK/VII/89。
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