@misc{10481/107195,
year = {2021},
month = {4},
url = {https://hdl.handle.net/10481/107195},
abstract = {Smart textiles, known also as e-textiles, are of great interest for the development of healthcare and wellness applications
that require the embedding of electronic devices into the fabrics. Although many prototype proposals may be found in
the literature, the generalization and commercialization of e-textiles is limited by the lack of cost-effective, standard
fabrication processes that can be applied to a large variety of fabrics. In this contribution, we analyze the deposition of
silver and carbon pastes by screen printing methods on a wide selection of daily-use textiles, to gain insight into the main
features to be considered when developing cost-effective smart textiles. Results show the prospects offered by screen
printing to create conductive patterns over textile and flexible materials with sheet resistances lower than 1 X/sq and a
good repeatability in the dimensions of the patterns},
organization = {This work has been supported by the BBVA Foundation through a 2019 Leonardo Grant for Researchers and Cultural Creators; and by the Spanish Ministry of Education, Culture and Sport through the predoctoral grant FPU18/01376},
publisher = {Sage},
keywords = {E-textiles},
keywords = {screen printing},
keywords = {silver chloride},
keywords = {carbon},
keywords = {sheet resistance},
title = {Properties of silver chloride and carbon screen printed patterns on different textiles},
doi = {10.1177/00405175211005039},
author = {Toral López, Víctor and Albrecht, Andreas and Castillo Morales, María Encarnación and García Ríos, Antonio and Becherer, Markus and Rivadeneyra Torres, Almudena},
}