Issue 23, 2018

Enhanced parylene-C fluorescence as a visual marker for neuronal electrophysiology applications

Abstract

Parylene-C is a popular polymer material in biomedical applications, with excellent physicochemical properties and microfabrication capability. Like many aromatic polymers, parylene-C also has autofluorescence, which was usually taken as a negative background noise in biomedical detection studies. However, the fluorescence intensity of thin-film (<1 μm) parylene-C was relatively weak, which may be a big limitation in visualization. In this work, we reported a simple annealing method to significantly enhance the fluorescence and achieve sufficient intensity as a visual marker. We studied the behaviors and mechanisms of the enhanced parylene-C fluorescence, then verified the feasibility and reliability of parylene-C for preparing fluorescent pipettes in targeted neuronal electrophysiology, where fluorescent guidance was strongly needed. The powerful parylene-C fabrication technique enables a precisely-controlled conformal coating along with a mass production capability, which further resulted in high-quality electrophysiological recordings of both cultured hippocampal neurons and acute hippocampal brain slices. Moreover, the enhanced parylene-C fluorescence can also be applied in more general biological operations, such as designable fluorescent micro-patterns for visualization in broader biomedical fields.

Graphical abstract: Enhanced parylene-C fluorescence as a visual marker for neuronal electrophysiology applications

Supplementary files

Article information

Article type
Communication
Submitted
03 Aug 2018
Accepted
01 Nov 2018
First published
02 Nov 2018

Lab Chip, 2018,18, 3539-3549

Enhanced parylene-C fluorescence as a visual marker for neuronal electrophysiology applications

L. Zhang, M. Wei, L. Shao, M. Li, W. Dai, Y. Cui, Z. Li, C. Zhang and W. Wang, Lab Chip, 2018, 18, 3539 DOI: 10.1039/C8LC00804C

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