@article{Ben Sedrine_Melo_Goth_Duraes_Silva_Silva_Mendes_2022, title={EXPLORING INNOVATIVE SCALE-UP SOLUTIONS FOR LIGHT INTEGRATION IN TEXTILES USING ELECTROLUMINESCENT FIBERS: Received: 15th January 2022; Revised: 10th March 2022, 16th March 2022; Accepted: 22nd April 2022}, volume={8}, url={https://grdspublishing.org/index.php/matter/article/view/2003}, DOI={10.20319/mijst.2022.8.89101}, abstractNote={<p>In this work, we present our results on one-dimensional (1-D) light-emitting devices and their textile integration. Indeed, light integration in textiles is very challenging and thanks to their unique 1-D configuration for possible miniaturization in the lateral direction, light-emitting fibres are promising since they present higher flexibility and adaptability than planar devices and can be easily integrated into textile processes. Therefore, this work is dedicated to studying and optimising these structures to achieve flexibility, stability, suitability for large-scale production and their integration into textiles. 1-D light-emitting devices consisting of electroluminescent (EL) fibres with different structures will be studied. Although the dip-coating method presents several challenges, it turns out that this method is the most promising for the scalability of the process.</p>}, journal={MATTER: International Journal of Science and Technology}, author={Ben Sedrine, Nabiha and Melo, Amanda and Goth, Albertino and Duraes, Nelson and Silva, Ricardo and Silva, Pedro and Mendes, Paulo}, year={2022}, month={May}, pages={89–101} }