A. O. Konakov, N. V. Talagaeva, K. V. Gor’kov, E. V. Zolotukhina
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引用次数: 0
摘要
提出了一种在惰性玻碳电极表面电氧化形成氧化铜-聚吡咯(PPy)复合材料制备催化剂的方法。采用不含聚吡咯基质的纯CuI进行比较。EDX和XRD分析证实了电氧化样品中CuO的形成和CuO相的存在。研究了电氧化CuI - ppy复合材料(EOCP)在甲醛和甲醇氧化反应中的电化学性能,并与电氧化CuI (EOC)样品的电化学性能进行了比较。在甲醇和甲醛溶液中进行的测试证实,所研究的样品对甲醛的敏感度最高。EOC体系检测碱性溶液中甲醛的线性检测范围为0 ~ 10 mM,灵敏度为125±4 nAµg-1 mM - 1,检出限为15.9±0.6µM; EOCP体系的线性检测范围为0 ~ 60 mM,灵敏度略低,为103±0.5 nAµg-1 mM - 1,检出限为7.3±0.3µM。
Toward Detection of Formaldehyde on Copper Oxides Formed from Copper Iodide–Polypyrrole Composite
An approach of the preparation of catalysts based on copper oxide-polypyrrole (PPy) composites formed via electrooxidation of CuI–PPy layers on the surface of inert glassy carbon electrode was proposed. The pure CuI without polypyrrole matrix was used for comparison. The formation of CuO and the presence of CuO phase in electrooxidized samples was confirmed by EDX and XRD analysis correspondingly. Electrochemical properties of electrooxidized CuI–PPy composite (EOCP) were studied in formaldehyde and methanol oxidation reactions and compared with electrochemical properties of electrooxidized CuI (EOC) sample. Tests in methanol and in formaldehyde solutions confirmed the highest sensitivity of studied samples to formaldehyde. The linear detection range (LDR) of formaldehyde detection in alkaline solution for EOC system was 0–10 mM, the sensitivity was 125 ± 4 nA µg–1 mM–1, the detection limit was 15.9 ± 0.6 µM, while EOCP system demonstrated the extended LDR of 0–60 mM, the slightly lower sensitivity of 103 ± 0.5 nA µg–1 mM–1 but the lower detection limit of 7.3 ± 0.3 µM.
期刊介绍:
Russian Journal of Electrochemistry is a journal that covers all aspects of research in modern electrochemistry. The journal welcomes submissions in English or Russian regardless of country and nationality of authors.
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