基于巯基-β-环糊精功能化的金纳米粒子/中空氮掺杂碳微球杂化材料的萘酚电化学传感器。

Electrochemical sensor for naphthols based on gold nanoparticles/hollow nitrogen-doped carbon microsphere hybrids functionalized with SH-β-cyclodextrin.

机构信息

State Key Laboratory of Chemo/Biosensing and Chemometrics, College of Chemistry and Chemical Engineering, Hunan University, Changsha 410082, PR China.

出版信息

Anal Chim Acta. 2012 Apr 20;723:33-8. doi: 10.1016/j.aca.2012.02.034. Epub 2012 Feb 25.

DOI:10.1016/j.aca.2012.02.034

PMID:22444570

Abstract

Due to awfully harmful to the environment and human health, the qualitative and quantitative determinations of naphthols [1-naphthol (1-NAP) and 2-naphthol (2-NAP)] are of great significance and receive great attention. In this paper, gold nanoparticles (AuNPs)/hollow nitrogen-doped carbon microspheres (HNCMS) hybrids (AuNPs/HNCMS) were prepared and functionalized with thiolated-β-cyclodextrin (HS-β-CD) for the first time, and then applied successfully in sensitive and simultaneous electrochemical detection of naphthols. The results show that the oxidation peak currents of naphthols obtained on the HS-β-CD/AuNPs/HNCMS modified glassy carbon (GC) electrode are much higher than that on the AuNPs/HNCMS/GC, HNCMS/GC and bare GC electrodes. Additionally, compared with other electrochemical sensors developed previously, the proposed electrode results in improved detection limits of about four times for 1-NAP (1.0 nM) and two orders of magnitude for 2-NAP (1.2 nM). The linear response ranges of both 1-NAP and 2-NAP are 2-150 nM.

摘要

由于对环境和人类健康有极大的危害，萘酚[1-萘酚（1-NAP）和 2-萘酚（2-NAP）]的定性和定量测定非常重要，也受到了极大的关注。在本文中，首次制备了金纳米粒子（AuNPs）/中空氮掺杂碳微球（HNCMS）杂化物（AuNPs/HNCMS），并用巯基-β-环糊精（HS-β-CD）进行功能化，然后成功地应用于萘酚的灵敏和同时电化学检测。结果表明，在 HS-β-CD/AuNPs/HNCMS 修饰的玻碳（GC）电极上获得的萘酚的氧化峰电流远高于 AuNPs/HNCMS/GC、HNCMS/GC 和裸 GC 电极上的氧化峰电流。此外，与以前开发的其他电化学传感器相比，该电极对 1-NAP（1.0 nM）的检测限提高了约 4 倍，对 2-NAP（1.2 nM）的检测限提高了两个数量级。1-NAP 和 2-NAP 的线性响应范围均为 2-150 nM。

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基于巯基-β-环糊精功能化的金纳米粒子/中空氮掺杂碳微球杂化材料的萘酚电化学传感器。

Electrochemical sensor for naphthols based on gold nanoparticles/hollow nitrogen-doped carbon microsphere hybrids functionalized with SH-β-cyclodextrin.

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