Habibur Rahman AnikUniversity of Georgia | UGA · Department of Textiles, Merchandising, and Interiors
Habibur Rahman Anik
Doctor of Philosophy
Polymer, Sustainable materials, Cellulose, Biofuel, Polymer chemistry, Materials chemistry
About
12
Publications
4,302
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Introduction
Habibur Rahman Anik's research interests have been inclined to textile fiber and polymer chemistry. His projects include hydrogel, graphene, nanocellulose, aerogels, nanoparticles, functional textiles, natural fiber discovery, natural dye, and apparel comfort determination.
Education
January 2018 - September 2023
Publications
Publications (12)
This paper specifically discusses the utilization of shoulder tape in t-shirts, which helps reduce production time and lessens fabric wastage. In recent times, apparel manufacturing industries are constantly trying to reduce their fabric waste and use them to ensure sustainability. Therefore, fabric consumption and production time become a prime co...
Reducing energy consumption and minimizing environmental impacts have been significant factors in expanding the applicability of plant fiber-reinforced composites across a variety of industries. Plant fibers have major advantages over synthetic fibers, including biodegradability, light weight, low cost, non-abrasiveness, and acceptable mechanical p...
This manuscript presents a comprehensive review of the possibilities offered by nanotechnology in the context of high-performance textiles. Nanotechnology embodies a groundbreaking innovation for the textile and apparel industry, facilitating enhancements to the functionality and performance of textiles, including durability, resistance to water, o...
Chemical synthesis and detection by miniature devices have promising applications in different areas, including human life and environmental protection. With the accelerated growth and wide range of alternatives in these fields, the development of sustainable, dependable, and ubiquitous systems is essential. In this regard, a continuous, long-lasti...
The field of technical textiles has grown significantly during the last two decades, with a focus on functionality rather than aesthetics. However, the advancement of NanoFusion technology provides a novel potential to combine better functionality and aesthetic value in textile finishes. NanoFusion incorporates nanoparticles into textile treatments...
With the trend toward practicing sustainability, the entire world is now conscious of textile waste disposal and turning it around into reusable and functional materials with a priority on minimizing health and environmental hazards. The fashion market is more dependent on rapid fashion cycles, an increasing population, and economic causes. Due to...
This review discusses the development and application of nanocellulose (NC)-aerogels, a sustainable and biodegradable biomaterial, with enhanced flame retardant (FR) properties. NC-aerogels combine the excellent physical and mechanical properties of NC with the low density and thermal conductivity of aerogels, making them promising for thermal insu...
Graphene has earned significant attention in the present world due to its light weight and extremely good conductive properties, which are used in different functional materials and smart devices. With skyrocketing demand, wearable sensors are evolving with many essential functionalities and flexibility in use. Moreover, wearable sensors can show s...
Progress in advanced electronics has initiated the investigation of new ways to develop and apply self‐powered smart devices. The concern for meteoric exhausting non‐renewable energy sources has spurred such endeavors. Even so, using external power sources like batteries is problematic due to limited capacity, maintenance inconvenience, replacement...
Bast fibers such as flax, hemp, and jute‐reinforced polymer composites due to their exceptional properties are gaining significant demand as a sustainable and cost‐effective alternative to conventional synthetic fiber‐reinforced composites. This comprehensive study aims to shed light on the potential of bast fiber reinforced composites (BFRCs) as i...