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.com

Volume 9

Journal of Analytical & Bioanalytical Techniques

Mass Spectra & Analytika 2018

September 19-20, 2018

September 19-20, 2018 Singapore

World Congress on

Mass Spectrometry and Analytical Techniques

Hui-Fang Cui et al., J Anal Bioanal Tech 2018, Volume 9

DOI: 10.4172/2155-9872-C2-030

A stable acetylcholinesterase biosensor based on Au nanorod@SiO

2

core-shell nanoparticle doped

chitosan-TiO

2

hydrogel for detecting organophosphate pesticides

Hui-Fang Cui, Ting-Ting Zhang and Wen-Wen Wu

Zhengzhou University, China

I

n our previous work, we have developed a highly stable electrochemical acetylcholinesterase (AChE) biosensor for detecting

Organophosphorus Pesticides (OPs) with a detection limit of 29 nM, simply by adsorption of AChE on Chitosan (CS)

film modified CS-TiO

2

hydrogel immobilization matrix (denoted as CS/TiO

2

-CS), which was transformed from colloidal

solution to hydrogel

in situ

immediately after being cast on graphene film modified glassy carbon electrode. In this work, Au

nano-rod (AuNR)@SiO

2

core-shell nanoparticles were synthesized and doped into the CS-TiO

2

hydrogel by directly mixing

the nanoparticles with the colloidal solution before the hydrogel formation. The doping of AuNR@SiO

2

was found being

homogeneous and significantly improving the electro-conductivity of the immobilization matrix. In contrast, the aggregation

of naked AuNRs in the colloidal solution was observed. The mesoporous SiO

2

shell could not only protect the Au nanorods from

aggregation and also allow the permeation of the enzyme substrate and product through the Au nanorod@SiO

2

nanoparticles.

The catalytic activity of the AChE immobilized CS/AuNR@SiO

2

@TiO

2

-CS to acetylthiocholine is significantly higher than that

missing the AuNR@SiO

2

in the matrix. The detection linear range of the biosensor to fenthion, a model OP compound, is from

18 nM to 22.6 μM, with detection limit of 10 nM and a total detection time of about 25 min. The biosensor is very reproducibly

and stable both in detection and in storage and can accurately detect the fenthion levels in cabbage juice samples, providing a

promisingly practical OPs biosensor with high reliability, simplicity, sensitivity and rapidness.

Biography

Hui-Fang Cui has been a Professor in School of Life Sciences, Zhengzhou University, China since 2007. She was recently appointed as Distinguished Professor

by Zhengzhou University. She has received her PhD degree from Department of Biological Sciences, National University of Singapore in 2006 and worked as a

Postdoctoral Research Fellow at Department of Biological Sciences, National University of Singapore from 2007 to 2008 and at School of Chemical and Biomedical

Engineering, Nanyang Technological University, Singapore from 2006 to 2007. She has published more than 30 papers in reputed journals. Her research interests

are biosensors, biotechnology and nanotechnology.

huifangcui@hotmail.com