Volume 246, 2023

Nanofluidic diodes based on asymmetric bio-inspired surface coatings in straight glass nanochannels

Abstract

In this study, we present nanofluidic diodes fabricated from straight glass nanochannels and functionalized using bio-inspired polydopamine (PDA) and poly-L-lysine (PLL) coatings. The resulting PDA coatings are shown to be asymmetric due to a combination of transport considerations which can be leveraged to provide a measure of control over the effective channel geometry. By subsequently introducing a layer of amine-bearing PLL chains covalently bound to the PDA, we enhance heterogeneities in the charge and ion distributions within the channel and enable significant current rectification between forward-bias and reverse-bias modes; our PDA–PLL-coated channels yielded a rectification ratio greater than 1000 in a 100 nm channel filled with 0.01× phosphate-buffered saline solution (PBS). We further demonstrated that at higher ionic strength conditions, reducing the solution pH increased the number of protonated amines within the PLL layer, amplifying the charge disparities along the channel and leading to greater rectification. As nanofluidic diodes with bipolar surface charge distributions tend to provide superior performance compared to those with a single wall charge polarity, we imposed a more bipolar charge distribution in our devices by partially coating our PDA–PLL-coated channels with negatively charged polyacrylic acid (PAA). These enhanced bipolar channels exhibited greater current rectification than the PDA–PLL-coated channels, reaching rectification ratios in excess of 100 even in more physiologically-relevant 1× PBS solutions. Our fabrication approach and the results herein provide a promising platform from which the scientific community can build upon in the relentless endeavor for improved sensitivity in biosensors and other analytical devices.

Graphical abstract: Nanofluidic diodes based on asymmetric bio-inspired surface coatings in straight glass nanochannels

Associated articles

Article information

Article type
Paper
Submitted
26 3月 2023
Accepted
10 5月 2023
First published
11 5月 2023

Faraday Discuss., 2023,246, 356-369

Nanofluidic diodes based on asymmetric bio-inspired surface coatings in straight glass nanochannels

L. Zhou, A. Eden, K. Chou, D. E. Huber and S. Pennathur, Faraday Discuss., 2023, 246, 356 DOI: 10.1039/D3FD00074E

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