Mina Naderi is a dedicated PhD candidate in Chemical Engineering at Shahid Bahonar University of Kerman, specializing in the preparation and evaluation of polymer nanocarriers using microfluidic methods. With a strong academic foundation and extensive research experience, she has contributed significantly to the fields of nanotechnology and microfluidics. Her innovative approach has led to numerous high-impact publications and collaborative projects.
Author Metrics
Google Scholar Profile
Mina has a strong academic presence, with a citation index of 44 on Google Scholar and 40 on ResearchGate. These metrics reflect her contributions to peer-reviewed journals and her influence in the field of chemical engineering, particularly in her areas of research.
- Citations: This refers to the total number of times your work has been cited by other researchers. In your case, it’s 44.
- h-index: This metric measures both productivity and citation impact. An h-index of 3 means you have at least 3 papers that have each been cited at least 3 times.
- i10-index: This measures the number of academic papers you have that have been cited at least 10 times. An i10-index of 2 indicates you have 2 papers meeting that threshold.
Education
Mina is currently pursuing her PhD in Chemical Engineering at Shahid Bahonar University of Kerman. She has also enriched her academic journey as a visiting student at The Hong Kong University of Science and Technology, focusing on microfluidics. Her educational background has equipped her with a robust understanding of polymer science and nanotechnology.
Research Focus
Minaās research primarily centers around the synthesis and application of polymer nanocarriers through microfluidic techniques. Her work aims to address critical challenges in targeted drug delivery and medical applications, particularly in cancer therapy. She is also exploring sustainable methods for nanomaterial production, showcasing her commitment to green chemistry.
Professional Journey
Throughout her academic career, Mina has gained valuable experience in teaching and mentoring students. She has also served as a reviewer for various scientific journals, contributing to the peer-review process. Her consultancy work, including projects with hospitals and research institutes, highlights her ability to bridge academic research with real-world applications.
Honors & Awards
Mina has been recognized for her academic excellence and research contributions. Her publications have received significant attention, and she has been awarded opportunities for collaboration with prestigious institutions, reflecting her dedication to advancing the field of chemical engineering.
Publications Noted & Contributions
Mina has authored several notable publications, including a book titled “Polymerized Ionic Liquids as Antimicrobial Materials” (ISBN: 978-981-15-7098-8) and articles in high-impact journals such as the Journal of Molecular Liquids. Her research contributions have advanced knowledge in nanotechnology and microfluidics, particularly regarding drug delivery systems.
Research Timeline
Mina’s research timeline includes several completed and ongoing projects. Key milestones include the successful synthesis of ZIF-67 nanoparticles and the development of Trastuzumab-loaded nanoparticles for breast cancer therapy. Currently, she is focused on creating a portable microfluidic device for medical applications, demonstrating her forward-thinking approach.
Collaborations and Projects
Mina has established fruitful collaborations with The Hong Kong University of Science and Technology and Kerman University of Medical Sciences. She is also working with the Saffron Research Institute on projects related to the encapsulation of saffron active ingredients in nanoparticles. These partnerships highlight her interdisciplinary approach and commitment to advancing research in her field.
Conclusion
Mina Naderi exemplifies the qualities of an outstanding researcher in the field of nanotechnology. Her innovative contributions, strong academic metrics, and commitment to sustainability underscore her potential for continued success. By addressing areas for improvement, such as expanding her publication output and enhancing public engagement, she can further solidify her position as a leading researcher. With her dedication and proactive approach, Mina is well-positioned to make significant advancements in chemical engineering and beyond.