Research Assistant at Sharif University of Technology, Iran
Sina Ebrahimi is an accomplished researcher specializing in nano-bioengineering and mechanical engineering, with a focus on targeted drug delivery, microfluidics, and computational modeling. He holds a Master’s degree in Mechanical Engineering from Sharif University of Technology and a Bachelor’s from the University of Tabriz. His multidisciplinary research spans areas such as nano-microfluidic device design, single-cell analysis, and fluid-structure interactions. With over 260 citations and an h-index of 12, Ebrahimi’s work has made significant contributions to fields like cancer therapy and cardiovascular diseases. He has collaborated with renowned institutions, including Oregon Health & Science University, where he applies fluid-structure interaction techniques to biomedical problems. His hands-on experience with experimental projects, coupled with his strong technical skills in computational modeling and device fabrication, makes him a rising figure in the biomedical engineering landscape. His work in optimizing drug delivery systems demonstrates innovation and potential for impactful medical applications.
Professional Profile
Education
Sina Ebrahimi’s educational background reflects a strong foundation in mechanical engineering and a focus on advancing technology in biomedical applications. He earned his Master of Science (M.Sc.) in Mechanical Engineering from Sharif University of Technology in Tehran, where he achieved an impressive GPA of 3.9/4. His thesis, titled “Stability of Coronary Arteries Arteriosclerosis Using Fluid-Structure Interaction,” was supervised by Dr. Famida Fallah. Prior to his master’s degree, he completed his Bachelor of Science (B.Sc.) in Mechanical Engineering at the University of Tabriz, graduating with a GPA of 15.06/20. His undergraduate thesis involved a computational dynamic finite element simulation of the thoracic vertebrae under blunt loading, supervised by Dr. Hasan Biglari. This rigorous academic training, combined with hands-on research experiences, has equipped Ebrahimi with the expertise necessary to address complex challenges in nano-bioengineering and related fields.
Professional Experience
Sina Ebrahimi has cultivated a robust professional profile through various research assistant roles and teaching experiences in the field of mechanical and biomedical engineering. Currently, he works as a Research Assistant at the Nano-Bio Engineering Lab at Sharif University of Technology, where he focuses on designing and fabricating advanced microfluidic chips for targeted drug delivery systems. Additionally, Ebrahimi is involved in research at the Iranian Research Organization for Science and Technology, contributing to the development of microfluidic devices for circulating tumor cell sorting. He also serves as a Research Assistant at Oregon Health & Science University, applying fluid-structure interaction techniques to estimate biomechanical properties in biomedical contexts. Earlier, he gained valuable experience as a Teaching Assistant at Sharif University, where he guided master’s students in project development and scientific writing. This diverse professional experience demonstrates Ebrahimi’s commitment to advancing research in nano-bioengineering and his ability to mentor emerging scientists.
Research Interest
Sina Ebrahimi’s research interests lie at the intersection of mechanical engineering, bioengineering, and nanotechnology, with a particular focus on developing innovative solutions for biomedical applications. He is deeply engaged in the design and fabrication of nano-microfluidic devices, aiming to enhance targeted drug delivery systems. His work often involves biophysical analysis and single-cell analysis, contributing to advancements in understanding disease mechanisms at a microscopic level. Ebrahimi is also keen on exploring lab-on-a-chip technologies, which integrate multiple laboratory functions onto a single chip for more efficient diagnostics and therapeutics. Additionally, he employs finite element and volume modeling techniques to simulate complex biological systems, such as fluid-structure interactions in cardiovascular health. Through these research pursuits, Ebrahimi aims to address critical challenges in medical science, particularly in cancer therapy and cardiovascular diseases, demonstrating his commitment to bridging engineering principles with healthcare innovation.
Award and Honor
Sina Ebrahimi has received several notable awards and honors throughout his academic journey, highlighting his dedication and excellence in research. In 2023, he achieved an impressive score of 325 out of 340 on the GRE Subject Test, showcasing his strong aptitude in quantitative analysis and verbal reasoning. Ebrahimi was recognized as an elite student researcher in the Department of Mechanical Engineering at Sharif University of Technology in 2020, a testament to his significant contributions to academic research and his ability to engage in innovative projects. Additionally, he ranked 20th among over 17,000 participants in the nationwide university entrance exam for his Master’s program in Mechanical Engineering in 2017, reflecting his exceptional academic performance and potential. These honors not only underscore Ebrahimi’s commitment to his field but also establish him as a promising researcher poised to make impactful contributions to biomedical engineering and technology.
Conclusion
Sina Ebrahimi is a strong candidate for a Best Researcher Award, particularly within fields like biomedical engineering and nanotechnology. His interdisciplinary research, high citation count, and innovative approaches to cancer treatment and drug delivery make him a notable emerging researcher. While his work is impactful and well-recognized in academia, advancing leadership roles in funding, broader public engagement, and targeting top-tier journal publications would further bolster his candidacy for future awards.
Publication top noted
- In-silico study of drug delivery to atherosclerosis in the human carotid artery using metal–organic frameworks based on adhesion of nanocarriers
Authors: Shamloo, A., Naseri, T., Rahbary, A., Ebrahimi, S., Mirafzal, I.
Journal: Scientific Reports (2023)
Citation: 13(1), 21481. [DOI: 10.1038/s41598-023-48803-0] 📄
- Investigation of the size and shape of nano-microcarriers for targeted drug delivery to atherosclerotic plaque in ischemic stroke prevention
Authors: Sayah, M., Ebrahimi, S., Mirafzal, I., Shamloo, A.
Journal: International Journal of Pharmaceutics (2024)
Citation: 662, 124469. 📄
- A comprehensive review of lessons learned from quantum dots in cancer therapy
Authors: Mohammadi, J., Hheidari, A., Sardari, S., Rahdar, A., Pishbin, E.
Journal: Biomedical Materials (Bristol) (2024)
Citation: 19(5), 052004. 📄
- Metal-based nanoparticle in cancer treatment: lessons learned and challenges
Authors: Hheidari, A., Mohammadi, J., Ghodousi, M., Pishbin, E., Rahdar, A.
Journal: Frontiers in Bioengineering and Biotechnology (2024)
Citation: 12, 1436297. 📄
- Magnetic sorting of circulating tumor cells based on different-level antibody expression using a divergent serpentine microchannel
Authors: Ebrahimi, S., Rostami, Z., Alishiri, M., Shamloo, A., Hoseinian, S.M.A.
Journal: Physics of Fluids (2023)
Citation: 35(12), 121906. 📄
- A curved expansion-contraction microfluidic structure for inertial based separation of circulating tumor cells from blood samples
Authors: Ebrahimi, S., Alishiri, M., Pishbin, E., Afjoul, H., Shamloo, A.
Journal: Journal of Chromatography A (2023)
Citation: 1705, 464200. 📄
- Optimizing the design of a serpentine microchannel based on particles focusing and separation: A numerical study with experimental validation
Authors: Ebrahimi, S., Alishiri, M., Shamloo, A., Seifi, S., Shaygani, H.
Journal: Sensors and Actuators A: Physical (2023)
Citation: 358, 114432. 📄
- Novel bilayer coating on gentamicin-loaded titanium nanotube for orthopedic implants applications
Authors: Shaygani, H., Seifi, S., Shamloo, A., Alishiri, M., Ebrahimi, S.
Journal: International Journal of Pharmaceutics (2023)
Citation: 636, 122764. 📄
- Effect of nano-microparticle shape on targeted drug delivery: A numerical study on Abdominal Aortic Aneurysm
Authors: Ebrahimi, S., Rahbary, A., Mirafzal, I., Shamloo, A.
Conference: 2023 30th National and 8th International Iranian Conference on Biomedical Engineering (ICBME 2023)
Citation: pp. 364–370. 📄