Light enhanced electrochemistry and electrochemiluminescence of luminol at glassy carbon electrodes

被引:10
|
作者
Cao, Zhiyuan [1 ]
Su, Bin [1 ]
机构
[1] Zhejiang Univ, Inst Analyt Chem, Dept Chem, Hangzhou, Zhejiang, Peoples R China
来源
ELECTROCHEMISTRY COMMUNICATIONS | 2019年 / 98卷
关键词
Luminol; Electrochemiluminescence; Glassy carbon electrode; Hot hole; Light irradiation; ALKALINE AQUEOUS-SOLUTIONS; ELECTROGENERATED CHEMILUMINESCENCE; GRAPHITE PHOTOELECTROCHEMISTRY;
D O I
10.1016/j.elecom.2018.11.016
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
We report in this work the enhancement effect of light irradiation on the electrochemistry and electrochemiluminescence (ECL) of luminol at the bare glassy carbon electrode (GCE). Light irradiation on the GCE surface induced the formation of hot electron-hole pairs. In alkaline solutions, hot holes can oxidize hydroxide anions to hydroxyl radicals that are capable of promoting the oxidation of luminol to generate larger current and stronger ECL. Moreover, the stability of current and ECL is also significantly improved upon light irradiation. This study provides a simple method to enhance the electrochemistry and ECL of luminol that have promise in improving the sensitivity of luminol-based chemical analysis and bioanalysis.
引用
收藏
页码:47 / 52
页数:6
相关论文
共 50 条
  • [1] Potential-resolved electrochemiluminescence of luminol in alkaline solutions at glassy carbon and platinum electrodes
    Lin, XQ
    Sun, YG
    Cui, H
    CHINESE JOURNAL OF ANALYTICAL CHEMISTRY, 1999, 27 (05) : 497 - 503
  • [2] Enhanced Cathodic Electrochemiluminescence of Luminol on Iron Electrodes
    Feng, Minghui
    Dauphin, Alice L.
    Bouffier, Laurent
    Zhang, Feifei
    Wang, Zonghua
    Sojic, Neso
    ANALYTICAL CHEMISTRY, 2021, 93 (49) : 16425 - 16431
  • [3] Electrochemiluminescence of luminol at the titanate nanotubes modified glassy carbon electrode
    Xu, Guifang
    Zeng, Xiaoxue
    Lu, Shuangyan
    Dai, Hong
    Gong, Lingshan
    Lin, Yanyu
    Wang, Qingping
    Tong, Yuejin
    Chen, Guonan
    LUMINESCENCE, 2013, 28 (04) : 456 - 460
  • [4] Electrochemistry of ABTS at Glassy Carbon Electrodes
    Zeng, Han
    Tang, Zhi-qiang
    Liao, Ling-wen
    Kang, Jing
    Chen, Yan-xia
    CHINESE JOURNAL OF CHEMICAL PHYSICS, 2011, 24 (06) : 653 - 658
  • [5] Direct electrochemistry of catalase on glassy carbon electrodes
    Lai, ME
    Bergel, A
    BIOELECTROCHEMISTRY, 2002, 55 (1-2) : 157 - 160
  • [6] Study of electrochemiluminescence of lucigenin at glassy carbon electrodes in NaOH solution
    Sun, YG
    Cui, H
    Lin, XQ
    JOURNAL OF LUMINESCENCE, 2001, 92 (03) : 205 - 211
  • [7] Voltammetric Study and Modeling of the Electrochemical Oxidation Process and the Adsorption Effects of Luminol and Luminol Derivatives on Glassy Carbon Electrodes
    Chen, Ran
    Wang, Xin
    Wu, Kaiqing
    Liu, Songqin
    Zhang, Yuanjian
    ANALYTICAL CHEMISTRY, 2022, 94 (50) : 17625 - 17633
  • [8] Direct electrochemistry of cytochrome c at hydroxyapatite modified glassy carbon electrodes
    Qin, YH
    Zhang, YJ
    Xu, XD
    Xu, HD
    Li, JH
    ACTA CHIMICA SINICA, 2004, 62 (09) : 860 - 863
  • [9] Electrochemistry of Redox Active Ferrocene Covalently Attached to Glassy Carbon Electrodes
    Huffman, Brittany L.
    Donley, Carrie L.
    Dempsey, Jillian L.
    JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 2023, 170 (12)
  • [10] Surface Nanostructure Effects on Dopamine Adsorption and Electrochemistry on Glassy Carbon Electrodes
    Swinya, Dalia L.
    Martin-Yerga, Daniel
    Walker, Marc
    Unwin, Patrick R.
    JOURNAL OF PHYSICAL CHEMISTRY C, 2022, 126 (31): : 13399 - 13408
12345