Overview: As a Ph.D. student in Materials Science and Engineering, Amir is passionate about advancing technology and knowledge to make significant contributions to healthcare materials. His current research is focused on the development and optimization of piezoelectric sustainable cellulose materials. These non-toxic, eco-friendly materials aim to replace conventional lead zirconate titanate (PZT) and other high piezoelectric materials, enhancing their electromechanical coupling behaviors for various healthcare applications.
Research Focus: Sustainable Materials: Utilizing sustainable cellulose, which is abundant and environmentally friendly, to create piezoelectric materials with minimal ecological impact. Electromechanical Coupling: Investigating the fundamental electromechanical properties of cellulose-based materials to enhance their performance. Healthcare Applications: Developing applications such as wearable devices, smart scaffolds for tissue engineering, and flexible tissue patches that leverage these advanced piezoelectric materials. Material Doping: Incorporating strategic dopants to improve the piezoelectric properties and biocompatibility of the cellulose materials, ensuring their suitability for medical use. Impact: Amir’s research aims to revolutionize the healthcare industry by providing sustainable, high-performance alternatives to traditional piezoelectric materials. These innovations promise to enhance medical devices, reduce reliance on harmful materials, and pave the way for more efficient and effective healthcare solutions.