Mohammad(Sam) Parizi Research Webpage
Cancer Treatment Technology
- Irreversible Electroporation Therapy
- Ultrasound-Assisted Drug Delivery
- Intraoperative Radiation Therapy
Medical Diagnostic Systems
- COVID-19 Diagnostic Platfom
- Breast Cancer Staging System
Biomaterials And Biofabrication Techniques
- Digital Light Processing (DLP) 3D Bioprinting
- Conductive Biomaterials
- Hydrogels-based Scaffolds
Cell and Tissue engineering
- Organoid and Spheroid Patient Tumor Model
- Time-Lapse Imaging and Live Microscopy Setups
- 4D Confocal Imaging
Nanotechnology and microfabrication
- Design and Fabrication of Microfluidic Devices
- Design and Application of Electrochemical Biosensors, CV and EIS
- Advanced Material Characterization
- Wearable and Flexible Electronics
Through my involvement in clinical projects, I have been intimately exposed to the complexities of patient suffering, familial distress, and the challenges faced in hospitals and surgery rooms, especially among those from lower socioeconomic backgrounds. Additionally, working in a microfabrication lab with engineers and a biomedical research lab with scientists has equipped me with diverse skills and backgrounds that reinforced my commitment to academia. My ultimate aim is to leverage technology to not only enhance healthcare quality but also promote equity and diversity in society by developing innovative solutions that are accessible and affordable to all, bridging the gap between advanced medical care and underserved communities.
I am a passionate and dedicated biomedical researcher, and My research interests and expertise lie at the intersection of Tissue Engineering, Nanotechnology, Bioelectronics, Micro and nanofabrication, Microfluidics, and Cancer Research. I have over five years of hands-on experience in cancer research labs and three years in nanofabrication labs. I am a collaborative team member and results-oriented researcher with a continual thirst for knowledge and innovation.
I invite you to explore my webpage, where I hope to share ideas and innovations that contribute to a better, healthier world for everyone.
Micro and Nano Devices - Electrical Engineering (2017 - 2021)
University of Tehran
Focus on Cancer Diagnosis and Treatment using Nanotechnology and Electronics.
Biomedical Engineering, MSc (2022 - 2024)
University of Houston
Focus on Tissue Engineering, Biofabrication, and Biomaterials.
Biomedical Engineering, PhD (2024 - Present)Georgia Institute of Technology
Biomedical Engineering, PhD (2024 - Present)Emory University
Publications and Patents: