Model of Corncob Biochar Modified Carbon Paste Electrode for Nitrite Detection

Q3 Physics and Astronomy Journal of Nano-and electronic Physics Pub Date : 2023-01-01 DOI:10.21272/jnep.15(3).03005
B. N. Sulastri, K. A. Madurani, F. Kurniawan
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Abstract

The ability of corncob biochar as a modifier of carbon paste electrodes for nitrite sensing was investigated and compared to unmodified carbon paste electrodes. Nitrite standard solutions in 0.1 M phosphate buffer solution (pH 7.0) were measured using cyclic voltammetry with a potential range of 0.1 to 1 V and a scan rate of 100 mV s – 1 . The corncob biochar-modified carbon paste electrode provided better performance than the unmodified electrode, with an anodic peak of 20 mg L – 1 nitrite appearing at a potential of 0.84 V, indicating nitrite oxidation. In contrast, the unmodified carbon paste electrode did not show any significant peak. To confirm that the observed peak is indeed the anodic peak of nitrite, we conducted measurements at different nitrite concentrations of 0, 20, and 50 mg L – 1 . In the absence of nitrite, no significant peak was observed. However, in nitrite solutions, the anodic peak increased with higher concentrations of nitrite. Additionally, the corncob biochar-modified carbon paste electrode demonstrated good selectivity for nitrite detection, as cyclic voltammetric measurements of some interference components did not produce redox peaks in the potential range of nitrite oxidation. These findings suggest that corncob biochar has significant potential for the development of electrochemical nitrite sensors.
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玉米芯生物炭修饰碳糊电极亚硝酸盐检测模型
研究了玉米芯生物炭作为碳糊电极亚硝酸盐传感改性剂的性能,并与未改性的碳糊电极进行了比较。采用循环伏安法,在0.1 M磷酸盐缓冲溶液(pH 7.0)中测定亚硝酸盐标准溶液,电位范围为0.1 ~ 1 V,扫描速率为100 mV s - 1。玉米芯生物炭修饰的碳糊电极性能优于未修饰的电极,在0.84 V电位下出现20 mg L - 1亚硝酸盐的阳极峰,表明亚硝酸盐氧化。相比之下,未经修饰的碳糊电极没有出现明显的峰值。为了证实观察到的峰确实是亚硝酸盐的阳极峰,我们在不同的亚硝酸盐浓度(0、20和50 mg L - 1)下进行了测量。在没有亚硝酸盐的情况下,没有观察到明显的峰。然而,在亚硝酸盐溶液中,阳极峰随着亚硝酸盐浓度的增加而增加。此外,玉米芯生物炭修饰的碳膏电极对亚硝酸盐检测具有良好的选择性,因为某些干扰组分的循环伏安测量在亚硝酸盐氧化电位范围内不会产生氧化还原峰。这些发现表明,玉米芯生物炭具有开发电化学亚硝酸盐传感器的巨大潜力。
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来源期刊
Journal of Nano-and electronic Physics
Journal of Nano-and electronic Physics Materials Science-Materials Science (all)
CiteScore
1.40
自引率
0.00%
发文量
69
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