Facile chemical modification of Nb2CTx MXene with ethylene diamine for sensitive electrochemical detection of dopamine from human serum samples

Facile chemical modification of Nb2CTx MXene with ethylene diamine for sensitive electrochemical detection of dopamine from human serum samples

•We present a facile method for the synthesis of aminated Nb2CTx derivative through facile amination technique.•The amination of Nb2CTx can enhance the electrochemical response.•The aminated Nb2CTx exhibited the highest sensing response towards dopamine in linear range of 1 nM – 100 μM.•The detectio...

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Bibliographic Details
Published in:Carbon trends Vol. 9; p. 100232
Main Authors: Ankitha, Menon, Shabana, Neermunda, Arjun, Ajith Mohan, Rasheed, P Abdul
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2022
Elsevier
Subjects:
Amination
dopamine
Electrochemical detection
Ethylene diamine
Nb2CTx
Electrochemical detection
Ethylene diamine
Amination
dopamine
Nb2CTx
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Summary:•We present a facile method for the synthesis of aminated Nb2CTx derivative through facile amination technique.•The amination of Nb2CTx can enhance the electrochemical response.•The aminated Nb2CTx exhibited the highest sensing response towards dopamine in linear range of 1 nM – 100 μM.•The detection limit of the developed sensor reached as low as 300 pM.•The real sample analysis showed excellent agreement with the experimental results. The electrochemical detection of dopamine (DA) is of ultimate importance in the early-stage diagnosis of Parkinson's and Alzheimer's diseases. In this work, we report the development of a facile amination technique of Nb2CTx MXenes for the electrochemical sensing of DA. The amination was confirmed using fourier transform infrared spectroscopy and X-ray photoelectron spectroscopy the structural changes due to the amination process were confirmed using X-Ray diffractograms. The modified MXenes were used to modify carbon cloth electrodes, which were then applied to the electrochemical detection of DA. The developed sensor was able to detect dopamine linearly in the range 1 nM–100 μM and a limit of detection of (LOD) of 300 pM was achieved. The modified electrode was found to have a selective response to DA in the presence of other interferents in addition to being reproducible and stable. The modified electrode was also used for the detection of DA in serum samples with little difference in the sensing characteristics in phosphate buffer. This work presents a novel amination route for the surface functionalization of Nb2CTx and opens new avenues for applications of surface functionalized Nb-MXenes in electrochemical detection of neurotransmitters. [Display omitted]
ISSN:2667-0569
2667-0569
DOI:10.1016/j.cartre.2022.100232