The effect of conductive ink alternation on the sustainability and functioning of printed electronics

The demand for printed electronics (PE) is expected to increase for improved functionality and autonomy of products in the context of the Internet of Things, especially for sensing and communication. With this trend, the environmental performance of novel technologies is of growing importance, and r...

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Bibliographic Details
Published in:Flexible and printed electronics 2023-06, Vol.8 (2), p.25015
Main Authors: Naji Nassajfar, Mohammad, Välimäki, Marja, Hakola, Liisa, Eiroma, Kim, Immonen, Kirsi, Abdulkareem, Mariam, Horttanainen, Mika
Format: Article
Language:English
Subjects:
conductive ink
life cycle assessment
printed electronics
sustainable electronics
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Summary:The demand for printed electronics (PE) is expected to increase for improved functionality and autonomy of products in the context of the Internet of Things, especially for sensing and communication. With this trend, the environmental performance of novel technologies is of growing importance, and researchers are exploring ways to make them more environmentally friendly using bio-based substrates and additive printing methods. Conductive inks have the highest environmental impact in the life cycle of PE, and there are two options to decrease the impact: increase recycling rates or replace commonly used silver inks with less impactful materials such as copper or graphite. With the current mixed waste management system, a higher recycling rate for silver is not achievable. Copper and graphite have a lower environmental impact than silver, however, the electrical conductivity of copper and graphite inks is lower than silver ink. This article introduces a double-parameter comparison to simultaneously assess the environmental and electrical conductivity of PE using three inks of silver, copper, and graphite inks. Then based on the technical feasibility, this study proposes suitable applications for each substrate and ink combination.
ISSN:2058-8585
2058-8585
DOI:10.1088/2058-8585/acd650