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Prof. Rahmatollah Emadi: Bioceramics

Prof. Rahmatollah Emadi is a distinguished academic and expert in the field of materials engineering, specializing in the processing of ceramics, bioceramics, nanomaterials, nanoceramics, and refractories. With a solid educational foundation, he earned his B.S. in Metallurgical Engineering in 1992, followed by an M.S. in Ceramics in 1995, and a Ph.D. in Advanced Ceramics in 2005. Prof. Emadi’s academic journey includes roles as a tutor, lecturer, assistant professor, associate professor, and currently as a full professor in the Department of Materials Engineering. With over two decades of experience, he continues to contribute significantly to the field, particularly in the areas of ceramics processing and nanomaterials.

 

Academic Qualifications:  

Prof. Rahmatollah Emadi is a distinguished expert in the field of ceramics, boasting a robust academic journey. He earned his B.S. in Metallurgical Engineering in 1992, laying the foundation for his specialization. Continuing his educational pursuits, he obtained an M.S. in Ceramics in 1995, delving deeper into the intricacies of ceramic materials. Driven by a passion for advanced knowledge, he culminated his academic journey with a Ph.D. in Advanced Ceramics in 2005. Prof. Emadi’s expertise lies in the processing of ceramics, showcasing a commitment to both foundational and cutting-edge research in this dynamic and vital field.

Field of Specification:  

Prof. Rahmatollah Emadi is a distinguished expert in the field of ceramics, specializing in bioceramics, nanomaterials, nanoceramics, refractories, and casting. With a wealth of knowledge and experience, he has significantly contributed to the processing of ceramics, advancing techniques and methodologies. His expertise in bioceramics highlights his commitment to innovative applications in the medical field, while his work in nanomaterials and nanoceramics underscores his contribution to the cutting-edge realm of nanotechnology. Additionally, Prof. Emadi’s influence extends to refractories, where he has played a pivotal role in enhancing materials’ resistance to extreme conditions. His impact on casting processes further solidifies his standing as a prominent figure in the ceramics field, recognized for his invaluable contributions to both research and practical applications.

Career History:  

Prof. Rahmatollah Emadi, a distinguished academic, embarked on his journey in the field of Materials Engineering as a Tutor from 1992 to 1994. His passion and expertise led him to serve as a Lecturer in the Department of Materials Engineering from 1995 to 2004. Advancing in his career, he assumed the role of Assistant Professor from 2005 to 2010, contributing significantly to the department’s academic landscape. Recognizing his scholarly achievements, he ascended to the position of Associate Professor from 2010 to 2015. Currently, as a Professor since 2015, Prof. Emadi continues to inspire and shape the future of Materials Engineering at the department, showcasing unwavering dedication and leadership.

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All – 2,955.
  • Citations – 2190.
  • h-index – 31.
  • Documents – 145.

A prolific researcher making meaningful contributions to the academic world!

Publications Top Note:
  2. Incorporation of graphene oxide as a coupling agent in a 3D printed polylactic acid/hardystonite nanocomposite scaffold for bone tissue regeneration applications
  3. Cellular behavior and antibacterial properties of MAO/PCL-chitosan-nanobaghdadite composite coating on biodegradable AZ91 alloy
  4. An antibacterial Multi-Layered scaffold fabricated by 3D printing and electrospinning methodologies for skin tissue regeneration
  5. Influence of mechanochemically fabricated nano-hardystonite reinforcement in polycaprolactone scaffold for potential use in bone tissue engineering: Synthesis and characterization
  6. Kappa-carrageenan based hybrid hydrogel for soft tissue engineering applications
  7. Multifunctional Bioinspired Bredigite-Modified Adhesive for Bone Fracture Healing
  8. An investigation into the effect of polyvinylpyrrolidone on the size and distribution of nickel catalyst particles for controlling CNTs’ morphology and growth mechanisms in fabricated hybrid CF-CNT nanocomposite
  9. Damage Micromechanisms in Friction Stir-Welded DP600 Steel during Uniaxial Tensile Deformation

 

Prof. Rahmatollah Emadi | Bioceramics

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