Screen printed carbon electrode from coconut shell char for lead ions detection

International Journal of Renewable Energy Development Pub Date : 2023-11-10 DOI:10.14710/ijred.2024.57679

Kinkind Raras Heliani, Fitria Rahmawati, A. Wijayanta

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Abstract

This research aimed to produce a screen-printed carbon electrode (SPCE) from an activated coconut shell carbon. As a raw material, coconut shell char provides renewability and is abundantly available in the market. Meanwhile, SPCE offers a simple electroanalytical electrode because the working, counter, and reference electrodes are in one piece. The coconut shell carbon was activated by steam at 700 oC for 1h, producing AC700 that was then characterized to ensure the result by following per under carbon as the main component, the phases, crystal structure, surface area, morphology, and elemental content. The result showed that the surface area of AC700 is 816 m2/g, and the surface structure is porous, as identified by SEM images. Impedance analysis followed by data fitting and conductivity calculation found a high conductivity of 8.68 x 10-2 Scm‑1. The produced-SPCE or SPAC700 was modified by ferrocene at various compositions of 10%; 20%; and 30% of mass. The SPAC700-Fc30 provided the best performance for lead analysis with a detection limit of 0.35 mM, a quantitation limit of 1.17 mM, and good reproducibility with a Repeatability Coefficient (RC) of 0.022. SPAC700-Fc30 showed good lead ions detection despite under 10% Cu2+ and 10% Co2+ interferences. The result confirmed the potential use of coconut shell char as the raw material for SPCE production.

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用于检测铅离子的椰壳炭丝网印刷碳电极

这项研究旨在利用活性椰壳炭来生产丝网印刷炭电极（SPCE）。作为一种原材料，椰壳炭具有可再生性，而且在市场上有大量供应。同时，由于工作电极、对电极和参比电极为一体，丝网印刷碳电极是一种简单的电分析电极。椰壳炭经 700 摄氏度蒸汽活化 1 小时后生成 AC700，然后对其进行表征，以确保结果的准确性，表征方法包括碳的主要成分、相、晶体结构、表面积、形态和元素含量。结果表明，AC700 的表面积为 816 平方米/克，通过扫描电镜图像可确定其表面结构为多孔结构。通过阻抗分析、数据拟合和电导率计算，发现其电导率高达 8.68 x 10-2 Scm-1。生产出的聚苯乙烯或 SPAC700 被二茂铁改性，改性比例分别为 10%、20% 和 30%。SPAC700-Fc30 的铅分析性能最佳，检测限为 0.35 mM，定量限为 1.17 mM，重复性良好，重复性系数 (RC) 为 0.022。尽管受到 10% Cu2+ 和 10% Co2+ 的干扰，SPAC700-Fc30 仍表现出良好的铅离子检测性能。该结果证实了将椰壳焦炭作为生产 SPCE 原料的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Renewable Energy Development

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