Issue 25, 2024

An ethyl cellulose novel biodegradable flexible substrate material for sustainable screen-printing

Abstract

We introduce an innovative solution to reduce plastic dependence in flexible electronics: a biodegradable, water-resistant, and flexible cellulose-based substrate for crafting electrochemical printed platforms. This sustainable material based on ethyl cellulose (EC) serves as an eco-friendly alternative to PET in screen printing, boasting superior water resistance compared to other biodegradable options. Our study evaluates the performance of carbon-based screen-printed electrodes (SPEs) fabricated on conventional PET, recycled PET (r-PET), and (EC)-based materials. Electrochemical characterization reveals that EC-SPEs exhibit comparable analytical performance to both P-SPEs and rP-SPEs, as evidenced by similar limits of detection (LOD), limits of quantification (LOQ), and reproducibility values for all the analytes tested (ferro-ferricyanide, hexaammineruthenium chloride, uric acid, and hydroquinone). This finding underscores the potential of our cellulose-based substrate to match the performance of conventional PET-based electrodes. Moreover, the scalability and low-energy requirements of our fabrication process highlight the potential of this material to revolutionize eco-conscious manufacturing. By offering a sustainable alternative without compromising performance, our cellulose-based substrate paves the way for greener practices in flexible electronics production.

Graphical abstract: An ethyl cellulose novel biodegradable flexible substrate material for sustainable screen-printing

Article information

Article type
Paper
Submitted
22 Apr 2024
Accepted
30 May 2024
First published
06 Jun 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 18103-18108

An ethyl cellulose novel biodegradable flexible substrate material for sustainable screen-printing

E. Palmieri, R. Cancelliere, F. Maita, L. Micheli and L. Maiolo, RSC Adv., 2024, 14, 18103 DOI: 10.1039/D4RA02993C

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