Carbon-dot wrapped ZnO nanoparticle-based photoelectrochemical sensor for selective monitoring of H2O2 released from cancer cells

被引:0
|
作者
Faria Khan
Naeem Akhtar
Nasir Jalal
Irshad Hussain
Rafal Szmigielski
Muhammad Qasim Hayat
Hafiz B. Ahmad
Waleed A. El-Said
Minghui Yang
Hussnain Ahmed Janjua
机构
[1] National University of Science Technology (NUST),Department of Industrial Biotechnology, Atta ur Rahman School of Applied Biosciences
[2] National University of Science Technology (NUST),Department of Plant Biotechnology, Atta ur Rahman School of Applied Biosciences
[3] Polish Academy of Sciences,Institute of Physical Chemistry
[4] COMSATS University Islamabad,Interdisciplinary Research Center in Biomedical Materials (IRCBM)
[5] National Institute for Materials Science (NIMS),School of Pharmaceutical Science and Technology
[6] Tianjin University,Department of Chemistry, SBA School of Science & Engineering (SBASSE)
[7] Lahore University of Management Sciences (LUMS),Department of Chemistry, Faculty of Science
[8] Assiut University,Solid State Functional Materials Research Laboratory, Ningbo Institute of Materials Technology and Engineering (NIMTE)
[9] Chinese Academy of Sciences (CAS),undefined
来源
Microchimica Acta | 2019年 / 186卷
关键词
H; O; Reactive oxygen species; Photo-electrochemical; Biocompatibility; Surface defects; Bio-nanomaterials;
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摘要
This study reports on a simple approach for the fabrication of an electrode modified with biocompatible C-dot wrapped ZnO nanoparticles for selective photoelectrochemical monitoring of H2O2 released from living cells. The biocompatibility of the ZnO nanoparticles was confirmed through in-vitro cellular testing using the MTT assay on Huh7 cell lines. The ZnO nanoparticles wrapped with dopamine-derived C-dots possess numerous catalytically active sites, excessive surface defects, good electrical conductivity, and efficient separation ability of photo-induced electrons and holes. These properties offer highly sensitive and selective non-enzymatic photo-electrochemical monitoring of H2O2 released from HeLa cells after stimulation with N-formylmethionyl-leucyl-phenylalanine. The sensor has a wide linear range (20–800 nM), low detection limit (2.4 nM), and reliable reproducibility, this implying its suitability for biological and biomedical applications.
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