Keivan Narooei | Engineering | Editorial Board Member

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Assoc. Prof. Dr. Keivan Narooei | Engineering | Editorial Board Member

K. N. Toosi University of Technology | Iran

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Early Academic Pursuits ✨

Assoc. Prof. Dr. Keivan Narooei's journey into the field of materials science and engineering began with a strong academic foundation. He earned his Bachelor of Science in Materials Science and Engineering from Isfahan University of Technology in 2002. With a keen interest in computational mechanics and finite element modeling, he pursued his Master of Science at the prestigious Sharif University of Technology, completing it in 2004. His academic dedication culminated in a Ph.D. in Finite Element Method (FEM) from the same institution in 2009. His doctoral studies equipped him with a profound understanding of mechanical behavior modeling, setting the stage for his future research contributions.

Professional Endeavors 🌟

Dr. Narooei has established himself as a leading academic and researcher in materials science. He currently serves as an Associate Professor at K. N. Toosi University of Technology, a renowned institution in Iran. Throughout his academic career, he has been instrumental in advancing research in computational modeling, hyperelasticity, and smart materials. His role as a mentor and educator has inspired numerous students to delve into the complexities of materials science and engineering.

Contributions and Research Focus 📚

Dr. Narooei's research encompasses various groundbreaking topics in mechanical behavior analysis and materials modeling. His primary areas of expertise include:

  • Plasticity: Investigating the deformation and mechanical behavior of materials under stress.
  • Shape Memory Polymers (SMPs): Exploring smart materials with the ability to recover their shape upon external stimulus.
  • Self-Healing Hydrogels: Developing bio-composite materials with self-repairing capabilities.
  • Hyperelasticity & Viscoelasticity: Studying advanced materials with unique mechanical responses for biomedical and industrial applications.

His work in these fields has led to numerous influential publications in high-impact journals, contributing significantly to advancements in materials science.

Accolades and Recognition 🏆

Dr. Narooei's research has gained widespread recognition in the academic community. His contributions to 4D printing, smart materials, and bio-composites have been cited extensively. Some of his most notable publications include:

  • "4D printing of shape memory polylactic acid beams: An experimental investigation into FDM additive manufacturing process parameters, mathematical modeling, and optimization" (Journal of Manufacturing Processes, 2023).
  • "A hyperelastic-damage model to study the anisotropic mechanical behavior of coral-hydrogel bio-composite" (Journal of the Mechanical Behavior of Biomedical Materials, 2022).
  • "Strain rate-dependent mechanical metamaterials" (Science Advances, 2020).

His work has received accolades from peers and institutions, recognizing his innovative approach to materials modeling and smart material applications.

Impact and Influence 💪

Dr. Narooei’s research has made a significant impact on the development of advanced materials with real-world applications. His studies on self-healing hydrogels and hyperelastic materials have influenced both biomedical engineering and industrial applications. His work in computational modeling has paved the way for more accurate simulations of material behaviors, essential for designing next-generation smart materials. Beyond research, Dr. Narooei has played a crucial role in mentoring young researchers, guiding them toward impactful scientific contributions. His teaching at K. N. Toosi University of Technology has nurtured a new generation of engineers and scientists specializing in material behavior and computational mechanics.

Legacy and Future Contributions 🔍

Looking ahead, Dr. Narooei continues to push the boundaries of materials science with innovative research in smart and bio-inspired materials. His work in 4D printing is expected to revolutionize manufacturing processes, while his studies on self-healing materials hold promise for medical applications, such as tissue engineering and prosthetics. As an influential figure in his field, Dr. Narooei’s legacy lies in his contributions to cutting-edge materials research and his dedication to fostering academic excellence. His future endeavors will undoubtedly shape the development of smarter, more resilient materials, leaving a lasting impact on both academia and industry.

 

Publications

  • 📄 A micromechanical model to predict the effective thermomechanical behavior of one-way shape memory polymers
    Journal: Mechanics of Materials
    Year: 2025-02
    Authors: M. Bakhtiari, K. Narooei

  • 📄 Investigation of multiplicative decompositions in the form of FeFv and FvFe to extend viscoelasticity laws from small to finite deformations
    Journal: Mechanics of Materials
    Year: 2022-04
    Authors: Marzieh Bahreman, Hossein Darijani, Keivan Narooei

  • 📄 A hyperelastic-damage model to study the anisotropic mechanical behavior of coral-hydrogel bio-composite
    Journal: Journal of the Mechanical Behavior of Biomedical Materials
    Year: 2022-02
    Authors: R. Eghbali, K. Narooei

  • 📄 Strain rate–dependent mechanical metamaterials
    Journal: Science Advances
    Year: 2020-06-17
    Authors: S. Janbaz, K. Narooei, T. van Manen, A. A. Zadpoor

  • 📄 A new hyper-viscoelastic model for investigating rate dependent mechanical behavior of dual cross link self-healing hydrogel
    Journal: International Journal of Mechanical Sciences
    Year: 2019-08
    Authors: A. Ghorbanoghli, K. Narooei

 

Jillian Perry | Materials Science | Best Researcher Award

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Assist Prof Dr. Jillian Perry | Materials Science | Best Researcher Award

University of North Carolina - Chapel Hill | United States

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🧠 Early Academic Pursuits

Assist. Prof. Dr. Jillian Perry's academic journey began with a Bachelor of Science in Chemical Engineering, awarded Cum Laude from the University of Florida in 2004, with a minor in Chemistry. Building on her solid foundation, she pursued a PhD in Biomedical Engineering at the same university, where she conducted pioneering research on chitosan nanotube synthesis for drug delivery applications. Her dissertation, supervised by Dr. John D. Steward and Dr. Charles R. Martin, laid the groundwork for a career focused on innovative solutions in drug delivery and nanotechnology.

💼 Professional Endeavors

Currently an Assistant Professor at the University of North Carolina’s Eshelman School of Pharmacy, Dr. Perry also contributes to the Center for Nanotechnology in Drug Delivery. Since joining UNC in 2010 as a Postdoctoral Research Associate at the Lineberger Comprehensive Cancer Center, she has been mentored by renowned researchers like Dr. Joseph M. DeSimone. Over the years, she progressed from a Research Associate Scientist to her current position, collaborating on high-impact research in pharmacoengineering and molecular pharmaceutics.

🧬 Contributions and Research Focus

Dr. Perry’s research explores 3D-printed microneedles, transdermal drug delivery systems, and nanoparticle-based cancer immunotherapies. She has authored numerous impactful publications, contributing extensively to fields such as tumor targeting and transdermal vaccination techniques. Her work includes significant studies on hydrogel-based cancer treatments and PRINT nanoparticle technology for enhanced therapeutic delivery.

🏆 Accolades and Recognition

Dr. Perry has been honored with several awards, such as the 2020 Junior Faculty Development Award and the NanoDDS Poster Award in 2018. Her 3D-printed vaccine patch technology received global attention and won the Fast Company’s World Changing Ideas Award in 2022. She was also recognized for her academic excellence with prestigious scholarships like the University Scholars Scholarship and Bright Futures Scholarship during her undergraduate years.

🌍 Impact and Influence

With an H-index of 19 and over 2,130 citations, Dr. Perry’s research has influenced the scientific community's understanding of nanomedicine and drug delivery technologies. Her innovative approaches in microneedle design and 3D printing for vaccine delivery have potential applications beyond academia, transforming practical healthcare delivery methods and advancing public health initiatives worldwide.

📜 Legacy and Future Contributions

As a thought leader in nanotechnology and biopharmaceuticals, Dr. Perry is expected to continue making groundbreaking contributions to transdermal vaccine development and targeted cancer therapies. Her active role in patenting novel drug delivery systems and designing biocompatible materials solidifies her legacy as a researcher committed to pioneering health solutions. Future contributions will likely include further advancements in non-invasive drug delivery and enhanced treatment efficacy in challenging medical fields, paving the way for transformative healthcare solutions.

 

Publications

📄  Development of 3D printed microneedles of varied needle geometries and lengths, designed to improve dermal delivery of topically applied psoriasis treatments

Authors: Pünnel LC, Palmtag M, Lunter DJ, Perry JL
Journal: European Journal of Pharmaceutics and Biopharmaceutics
Year: 2024

📄  3D-printed Lattice Microneedle Array Patches for Tunable and Versatile Intradermal Delivery

Authors: Rajesh NU, Hwang J, Xu Y, Saccone MA, Hung A, Hernandez RAS, Coates IA, Driskill MM, Dulay MT, Jacobson GB, Tian S, Perry JL#, DeSimone JM
Journal: Advanced Materials
 Year: 2024

📄  Development of a biocompatible 3D hydrogel scaffold using CLIP for the delivery of cell therapy to treat recurrent glioblastoma

Authors: Kass L, Morrent T, Zhang Y, DeVane C, Logan J, Tessema A, Perry JL#, Hingtgen SD
 Journal: Bioengineering and Translational Medicine
Year: 2024

📄  3D-Printed Microarray Patches for Transdermal Applications

Authors: Rajesh NU, Coates I, Driskill MM, Dulay MT, Hsiao K, Ilyn D, Jacobson GB, Kwak JW, Lawrence M, Perry JL, Shea CO, Tian SM, DeSimone JM
 Journal: JACS Au
 Year: 2022

📄  Transdermal Vaccination via 3D Printed Microneedles Induces Potent Humoral and Cellular Immunity

Authors: Caudill CL, Perry JL, Illiadis K, Tessema AT, Lee BJ, Mecham BS, Tian S, DeSimone JM
Journal: PNAS
 Year: 2021