Abstract:This article investigates eco-conscious strategies in loungewear manufacturing, including circular design, waterless dyeing, and biodegradable materials.3.1. Circular Economy PrinciplesBrands likePatagoniaandEileen Fisheradoptclosed-loop systemswhere post-consumer textiles are recycled into new garments.Infinitely Recyclable Nylonby Econyl uses ocean waste and industrial scraps to create high-quality yarn. Similarly,Reprevefibers from recycled plastic bottles reduce reliance on virgin p

AbstractThis technical analysis explores cutting-edge textile engineering approaches to mosquito-repellent pants, focusing on integrated material systems that combine chemical, physical, and biological barriers. We examine the synergistic effects of polymer-based microencapsulation, nanostructured coatings, and insecticide-laden fibers in enhancing repellency durability. Through experimental data and computational modeling, we demonstrate how these technologies interact to create a dynamic defen

AbstractThis study investigates the application of electrospinning technology for creating mosquito-repellent nanofiber membranes suitable for pant integration. We systematically analyze critical processing parameters (voltage, flow rate, polymer concentration) and their effects on fiber morphology, drug loading efficiency, and repellency performance. Special emphasis is placed on the encapsulation of transfluthrin within poly(lactic-co-glycolic acid) (PLGA) nanofibers.1. Electrospinning Fundame

AbstractThis paper presents a novel smart textile concept integrating mosquito sensors, microcontrollers, and automated repellent delivery systems into outdoor pants. We describe the development of a capacitive sensing array capable of detecting mosquito wingbeat frequencies (300-600Hz), and a MEMS-based actuator for controlled repellent release. The system demonstrates context-aware operation using machine learning algorithms.1. System Architecture OverviewThe smart pant system comprises three