Tanmina Akhter Munia
Lecturer, BUFT
About
Tanmina Akhter Munia
is a dedicated academician serving as a Lecturer at BGMEA University of Fashion
and Technology (BUFT), where she shares her expertise and passion for textile
education.
She completed her
Bachelor of Science in Textile Engineering, majoring in Fabric Engineering,
from the prestigious Bangladesh University of Textiles (BUTEX). She graduated
in 2020, securing the 2nd position in her department. Throughout her
academic journey, she demonstrated outstanding performance, earning
scholarships in every semester. Now, her M.Sc is ongoing in Bangladesh University
of Textiles (BUTEX) specialized in Fabric Engineering. She gained
hands-on industry experience through an internship at one of Bangladesh’s
leading textile manufacturers (Noman Textile Mills Limited) enhancing her
practical understanding of fabric production and textile processing. She worked
as a full-time lecturer for 2 years, delivering courses in textile
engineering in University of South Asia. She conducted 1.5 years of part-time
classes at her alma mater (Bangladesh University of Textiles-BUTEX), sharing
her knowledge with future textile engineers. She is deeply passionate about her
work and strives to inspire students through innovative teaching and research.
Her dedication to academic excellence and her enthusiasm for the textile
industry make her a promising educator and mentor. She continuously seeks to
enhance her knowledge and contribute to the advancement of fabric engineering
and textile technology in Bangladesh.
Teaching/Research Specialization
Academic qualifications of Faculty
M.Sc. in Textile Engineering (Ongoing), Bangladesh University of Textiles (BUTEX), Tejgaon, Bangladesh.
B.Sc. in Textile Engineering, Bangladesh University of Textiles (BUTEX), Tejgaon, Bangladesh.
Research Interest:
My research interest lies in the intersection of e-textiles, mechatronics, biopolymers, and Triboelectric Nanogenerators (TENGs). I am particularly fascinated by how e-textiles can integrate smart functionalities with everyday fabrics, offering new possibilities for wearable health monitors and interactive garments. By incorporating mechatronics, I aim to develop intelligent systems that seamlessly combine mechanical, electrical, and computing components for more efficient, adaptive technologies. Additionally, exploring biopolymers as sustainable materials aligns with my commitment to eco-friendly innovation. TENGs further inspire me, offering an exciting method for harvesting energy from motion, making these systems self-powered and more sustainable in real-world applications.