About
About Me
I am Parmida Harirchi, a Polymer Engineer with a robust academic background in both Biopolymers and Industrial Polymer Engineering. My academic journey began at the Islamic Azad University, where I earned my B.Sc. in Polymer Engineering, graduating at the top of my class. This foundation led me to pursue a Master’s degree at the prestigious in Iran, which is named the University of Tehran, where I specialized in Biopolymers. My studies have been driven by a deep fascination with the transformative potential of polymers in various applications, particularly in the realm of biomaterials and tissue engineering. As I look to the future, I am eager to further my expertise by pursuing a PhD in Polymer Engineering, where I can delve deeper into my research interests and contribute to groundbreaking innovations in the field.
Researchs
My research has been centered on the innovative use of polymeric materials, with a particular focus on Liquid Crystalline Elastomers (LCEs) and their applications in tissue engineering. For my master’s thesis, I synthesized LCEs and explored their use as cellular scaffolds for C2C12 myoblasts, aiming to enhance tissue regeneration. This work has not only expanded my expertise in materials science but also opened up new avenues for developing advanced biomaterials. My research contributions have been recognized through several publications in leading journals, where I have explored topics such as the integration of nanomaterials in polymer scaffolds and the use of molecularly imprinted polymers (MIPs) in drug delivery systems.
Journey
As I continue my academic and research journey, I am committed to exploring the frontiers of polymeric biomaterials and their potential to revolutionize medical and environmental applications. My ongoing interest in tissue engineering, drug delivery, sustainable polymers, conductive materials, and molecularly imprinted polymers drives my research pursuits. By combining my technical skills with an interdisciplinary approach, I aim to contribute to developing next-generation materials that can address critical challenges in healthcare and beyond. My goal is to push the boundaries of what is possible in polymer science, making a lasting impact through innovative research and collaboration.
