Journal of Biomedical Engineering and Medical Devices

Journal of Biomedical Engineering and Medical Devices
Open Access

ISSN: 2475-7586

Mehdi Razavi

Mehdi Razavi

Mehdi Razavi
Brunel Institute for Bioengineering
Brunel University London, UK

Biography

Dr. Mehdi Razavi is Postdoctoral Research Fellow in Biomaterials with the Brunel Centre for Advanced Solidification Technology (BCAST) in Institute of Materials and Manufacturing, and Brunel Institute for Bioengineering (BIB) at Brunel University London. Prior to this appointment he joined School of Materials Science and Engineering, Helmerich Advanced Technology Research Center (HRC), at Oklahoma State University as Research Scholar in Biomaterials and Tissue Engineering from 2013 to 2014. He holds a PhD in Biomaterials from Isfahan University of Technology-Isfahan University of Medical Sciences in 2014, MS in Materials Engineering from Isfahan University of Technology in 2010 and BS in Materials Engineering from Isfahan University of Technology in 2008. As one of his research honors, the Graduate Committee at Isfahan University of Technology distinguished Dr. Razavi as the author of Best PhD Thesis in 2011-2014. In 2015, he was awarded NewBioGen Research Fellow at Brunel University London selected among 27 candidates for a European Commission Research Project (EC PF7) and in 2013 he had a honor of funding from Oklahoma State University for a Research Scholarship program. He is a member of UK Society for Biomaterials (UKSB) and an adjunct faculty member in Dental Materials Research Center at Isfahan University of Medical Sciences. His research focuses on materials which interact therapeutically with the body. The research crosses the boundaries of several traditional and contemporary disciplines including Physical Metallurgy, Nanotechnology, Surface Engineering, Corrosion Science and Biomaterials Science, representing a special conjunction of advances in materials innovation and the increasing demands of human healthcare. A major focus is on the study and development of Biomaterials for applications in various fields such as Medical Implants, Tissue Engineering, and Regenerative Medicine. Dr. Razavi is an accomplished researcher in Biodegradable Metals, Metallic Biomaterials, 3D Bioscaffolds Design, Surface and Biointerface Science, Trauma Locking Plating Systems, In vitro studies, Cell Biology, and In vivo animal models and using this knowledge to develop advanced Biomaterials for wound therapies. He is passionate about translating his academic research to clinic. His interdisciplinary research has been recognized by Global Medical Discovery and Advances in Engineering as Key Scientific Article contributing to excellence in biomedical research, engineering, scientific and industrial research. His achievements have also been featured in Atlas of Science, Docphin and Iran Nanotechnology Initiative Council. He has experience in teaching the Biomedical Materials and Tissue Engineering in US and Advanced Materials, Mechanical Properties Lab, Research Methodology in Medicine, Radiology and Medical Imaging in Iran. He has also experience in preparing the proposals and progressive reports for The Leverhulme Trust, EPSRC, and NSF funding sources at Brunel University London and Oklahoma State University. Dr. Razavi serves as the chief editor, a member of editorial boards and reviewer for numerous internationally recognized journals, books and international funding agencies. He has authored over 37 peer-reviewed journal articles, 8 conference proceedings, 2 book chapters and 3 books. His publications have been cited for over 425 times, with an h-index of 14, and i-10 index of 17. The details of his research outputs are usually updated in his scientific online profiles on
Google Scholar (http://scholar.google.com/citations?user=KjL9DVYAAAAJ&hl=en)
ResearchGate (https://www.researchgate.net/profile/Mehdi_Razavi2?ev=hdr_xprf)
 Please feel free to contact him at mrazavi2659@gmail.com.

Research Interest

Biomaterials
Tissue Engineering and Regenerative Medicine
Biodegradable metals
Metallic biomaterials
3D bioscaffolds design
Surface and Biointerface science
Trauma Locking Plating Systems
In vitro studies

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