Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM

The voltammetric behavior of prochlorperazine and ethopropazine at a decanethiol (DEC) self-assembled monolayer (SAM) modified gold electrode (DEC/Au) has been studied. It was observed that prochlorperazine exhibited an anodic peak at about 0.60 V (vs SCE), while ethopropazine exhibited two anodic p...

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Main Authors: Baizhao Zeng, Faqiong Zhao, Yan Peng, Yuxia Yang
Format: Article
Language:English
Published: MDPI AG 2003-12-01
Series:Sensors
Subjects:
Online Access:http://www.mdpi.com/1424-8220/3/11/524/
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spelling doaj-618fe65668524c019f6417e79fb151482020-11-24T23:17:02ZengMDPI AGSensors1424-82202003-12-0131152453310.3390/s31100524Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAMBaizhao ZengFaqiong ZhaoYan PengYuxia YangThe voltammetric behavior of prochlorperazine and ethopropazine at a decanethiol (DEC) self-assembled monolayer (SAM) modified gold electrode (DEC/Au) has been studied. It was observed that prochlorperazine exhibited an anodic peak at about 0.60 V (vs SCE), while ethopropazine exhibited two anodic peaks at about 0.49 V and 0.58 V on DEC/Au in pH 10 sodium carbonate buffer. This was due to their different electrochemical oxidation mechanisms. In this case, the oxidation of prochlorperazine and ethopropazine included one 2e step and two 1e steps, respectively. In the presence of some reductants such as ascorbic acid, the oxidation products of them can catalyze the oxidation of the reductants and thus make the peaks grow. In addition, it was found that the SAM structure became not so compact when prochlorperazine and ethopropazine were present, resulting from their permeating in the SAM. Various conditions were optimized for their determination. Under the selected conditions (i.e. 0.080 M pH 10 sodium carbonate buffer; scan rate: 100 mV/s; accumulation potential: –0.4 V or 0 V; accumulation time: 60 s), the peak currents were linear to prochlorperazine concentration in the ranges of 0.1~2.0 μM and 5.0~50 μM, and linear with ethopropazine in the ranges of 10 nM~0.1 μM and 0.5~20 μM. The RSD was 4.28% for 8 successive measurements of 1.0 μM prochlorperazine. The influence of some coexistents was examined.http://www.mdpi.com/1424-8220/3/11/524/ProchlorperazineEthopropazineSelf-assembled monolayersDecanethiolGold electrode
collection DOAJ
language English
format Article
sources DOAJ
author Baizhao Zeng
Faqiong Zhao
Yan Peng
Yuxia Yang
spellingShingle Baizhao Zeng
Faqiong Zhao
Yan Peng
Yuxia Yang
Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM
Sensors
Prochlorperazine
Ethopropazine
Self-assembled monolayers
Decanethiol
Gold electrode
author_facet Baizhao Zeng
Faqiong Zhao
Yan Peng
Yuxia Yang
author_sort Baizhao Zeng
title Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM
title_short Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM
title_full Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM
title_fullStr Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM
title_full_unstemmed Voltammetric Determination of Prochlorperazine and Ethopropazine Using a Gold Electrode Modified with Decanethiol SAM
title_sort voltammetric determination of prochlorperazine and ethopropazine using a gold electrode modified with decanethiol sam
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2003-12-01
description The voltammetric behavior of prochlorperazine and ethopropazine at a decanethiol (DEC) self-assembled monolayer (SAM) modified gold electrode (DEC/Au) has been studied. It was observed that prochlorperazine exhibited an anodic peak at about 0.60 V (vs SCE), while ethopropazine exhibited two anodic peaks at about 0.49 V and 0.58 V on DEC/Au in pH 10 sodium carbonate buffer. This was due to their different electrochemical oxidation mechanisms. In this case, the oxidation of prochlorperazine and ethopropazine included one 2e step and two 1e steps, respectively. In the presence of some reductants such as ascorbic acid, the oxidation products of them can catalyze the oxidation of the reductants and thus make the peaks grow. In addition, it was found that the SAM structure became not so compact when prochlorperazine and ethopropazine were present, resulting from their permeating in the SAM. Various conditions were optimized for their determination. Under the selected conditions (i.e. 0.080 M pH 10 sodium carbonate buffer; scan rate: 100 mV/s; accumulation potential: –0.4 V or 0 V; accumulation time: 60 s), the peak currents were linear to prochlorperazine concentration in the ranges of 0.1~2.0 μM and 5.0~50 μM, and linear with ethopropazine in the ranges of 10 nM~0.1 μM and 0.5~20 μM. The RSD was 4.28% for 8 successive measurements of 1.0 μM prochlorperazine. The influence of some coexistents was examined.
topic Prochlorperazine
Ethopropazine
Self-assembled monolayers
Decanethiol
Gold electrode
url http://www.mdpi.com/1424-8220/3/11/524/
work_keys_str_mv AT baizhaozeng voltammetricdeterminationofprochlorperazineandethopropazineusingagoldelectrodemodifiedwithdecanethiolsam
AT faqiongzhao voltammetricdeterminationofprochlorperazineandethopropazineusingagoldelectrodemodifiedwithdecanethiolsam
AT yanpeng voltammetricdeterminationofprochlorperazineandethopropazineusingagoldelectrodemodifiedwithdecanethiolsam
AT yuxiayang voltammetricdeterminationofprochlorperazineandethopropazineusingagoldelectrodemodifiedwithdecanethiolsam
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