Our research focuses on developing efficient 3D textile electrodes and integrating conductive structures and sensors in textiles. We are exploring textile-based 3D structures as electrodes to enhance performance in electrochemical energy storage systems, including metal-ion batteries and redox flow batteries, as well as for hydrogen production. Additionally, we are advancing methods for creating conductive coatings on textiles, such as electroless metallization and in-situ polymerization of conductive polymers. These conductive structures have broad applications, from medical sensors to personal protective equipment, and beyond.