Navid Rabiee, PhD
Scientist, Innovator, Entrepreneur
Dr. Navid Rabiee, recognized among the top 1% of highly-cited researchers (Web of Science), has garnered over 50,000 citations and an H-index of 78. His multidisciplinary expertise spans molecular and cellular biology, biochemical sciences, and engineering, driving the development of advanced medical systems and devices. Renowned for his pioneering work in green biomaterials and precision medicine, Dr. Rabiee has contributed to 10 industrial and 7 clinical projects, transforming innovative research into practical diagnostic tools and therapeutic solutions. With 340+ peer-reviewed articles in leading journals, 10 books, and more than 20 book chapters, he seamlessly bridges groundbreaking science with real-world applications, addressing complex healthcare challenges while promoting sustainable advancements in biomaterials and medical technologies.
Discover My Latest Books
Metal−organic frameworks (MOFs) are a class of porous, crystalline materials with a broad range of applications. The primary aim of Logic for Metal−Organic Framework Selection is to offer a comprehensive overview of the principles, strategies, and methodologies for selecting the right MOF for specific applications. The opening chapter introduces the world of MOFs and the principles behind their selection. The remaining chapters delve into the intricacies of MOF design, synthesis, characterization, and the selection criteria based on biomedical applications. Students and newcomers to the field will gain valuable insights from the wealth of knowledge included within these pages and feel invigorated by the myriad of MOF applications.
This book explores the intersection between sustainability and biomedical innovation, focusing on how environmentally friendly materials can revolutionize tissue engineering. It explores the latest developments in green biomaterials and their applications, including biopolymers, bioinspired scaffolds, and inorganic-organic hybrids. By examining the integration of eco-conscious design principles into regenerative medicine, this volume bridges the gap between sustainability goals and medical science. Traditional synthetic biomaterials often come with environmental drawbacks such as waste generation and reliance on petrochemicals. This eBook seeks to address these challenges by spotlighting eco-friendly alternatives that meet the stringent requirements of biocompatibility, mechanical strength, and functionality for tissue engineering. The shift toward green biomaterials is not only environmentally essential but also aligns with evolving regulatory frameworks and patient safety expectations. The insights included will help readers from multiple disciplines quickly assimilate recent progress in this niche yet impactful subject.
Latest Publications
Rabiee, N. and Rabiee, M., 2024. Wearable Aptasensors. Analytical Chemistry.
Mikaeeli Kargarshahi, B., Naghib, S.M., Youneslian, D., and Rabiee, N., 2024. Unlocking the Rhythmic Power of Bacterial Cellulose: A Comprehensive Review on Green Energy Harvesting and Sustainable Applications. Advanced Functional Materials
Arghavani, P., Daneshgar, H., Sojdeh, S., Edrisi, M., Moosavi‐Movahedi, A.A. and Rabiee, N., 2025. Porous Materials for Early Diagnosis of Neurodegenerative Diseases. Advanced Healthcare Materials, p.2404685.
Rabiee, N. and Rabiee, M., 2025. Engineered Metal–Organic Frameworks for Targeted CRISPR/Cas9 Gene Editing. ACS Pharmacology & Translational Science.