Tailoring Diffusional Fields in Zwitterion/Dopamine Copolymer Electropolymerized at Carbon Nanowalls for Sensitive Recognition of Neurotransmitters - Publication - Bridge of Knowledge

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Tailoring Diffusional Fields in Zwitterion/Dopamine Copolymer Electropolymerized at Carbon Nanowalls for Sensitive Recognition of Neurotransmitters

Abstract

The importance of neurotransmitter sensing in the diagnosis and treatment of many psychological illnesses and neurodegenerative diseases is non-negotiable. For electrochemical sensors to become widespread and accurate, a long journey must be undertaken for each device, from understanding the materials at the molecular level to real applications in biological fluids. We report a modification of diamondized boron-doped carbon nanowalls (BCNWs) with an electropolymerized polydopamine/polyzwitterion (PDA|PZ) coating revealing tunable mechanical and electrochemical properties. Zwitterions are codeposited with PDA and noncovalently incorporated into a structure. This approach causes a specific separation of the diffusion fields generated by each nanowall during electrochemical reactions, thus increasing the contribution of the steady-state currents in the amperometric response. This phenomenon has a profound effect on the sensing properties, leading to a 4-fold enhancement of the sensitivity (3.1 to 14.3 μA cm–2 μM–1) and a 5-fold decrease of the limit of detection (505 to 89 nM) in comparison to the pristine BCNWs. Moreover, as a result of the antifouling capabilities of the incorporated zwitterions, this enhancement is preserved in bovine serum albumin (BSA) with a high protein concentration. The presence of zwitterion facilitates the transport of dopamine in the direction of the electrode by intermolecular interactions such as cation−π and hydrogen bonds. On the other hand, polydopamine units attached to the surface form molecular pockets driven by hydrogen bonds and π–π interactions. As a result, the intermediate state of dopamine–analyte oxidation is stabilized, leading to the enhancement of the sensing properties.

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Details

Category:
Articles
Type:
artykuły w czasopismach
Published in:
ACS NANO no. 16, pages 13183 - 13198,
ISSN: 1936-0851
Language:
English
Publication year:
2022
Bibliographic description:
Olejnik A., Ficek M., Szkodo M., Stanisławska A., Karczewski J., Ryl J., Dołęga A., Siuzdak K., Bogdanowicz R.: Tailoring Diffusional Fields in Zwitterion/Dopamine Copolymer Electropolymerized at Carbon Nanowalls for Sensitive Recognition of Neurotransmitters// ACS NANO -Vol. 16,iss. 8 (2022), s.13183-13198
DOI:
Digital Object Identifier (open in new tab) 10.1021/acsnano.2c06406
Sources of funding:
Verified by:
Gdańsk University of Technology

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