Abolfazl Mozaffari | Nano Electrospun Scaffolds | Innovative Practices in Academia Award

Posted on by Best Paper Award

Dr. Abolfazl Mozaffari | Nano Electrospun Scaffolds | Innovative Practices in Academia Award

Assistant professor at Azad university Yazd branch, Iran

Dr. Abolfazl Mozaffari is a distinguished researcher and academic specializing in [Field]. With extensive experience in [Research Domains], he has made significant contributions to [Key Achievements]. His work bridges the gap between fundamental science and practical applications, particularly in [Industry or Medical Applications]. As a dedicated scholar, he has published extensively in peer-reviewed journals, participated in major research projects, and mentored students in cutting-edge scientific advancements.

Publication Profile

Google Scholar

Educational Details

Dr. Abolfazl Mozaffari holds a Ph.D. in [Field of Study] from [University Name], where he focused on [Ph.D. Research Topic]. He earned his Master’s degree in [Field] from [Institution], specializing in [Master’s Research Area]. His undergraduate studies in [Relevant Field] were completed at [University Name], laying the foundation for his expertise in [Key Subject].

Professional Experience

Dr. Mozaffari has held key academic and research positions in leading institutions. He currently serves as a [Current Position] at [Institution], where he is actively involved in [Research/Teaching Areas]. Previously, he was a [Previous Role] at [Previous Institution], contributing to advancements in [Relevant Research Field]. His professional journey includes collaborations with industrial partners, where he has applied his expertise to [Specific Applications]. Dr. Mozaffari has also been an invited speaker at international conferences and has served as a reviewer for high-impact journals in his field.

Research Interest

Dr. Mozaffari’s research focuses on:

  • [Research Area 1] (e.g., Advanced Materials for Biomedical Applications)
  • [Research Area 2] (e.g., Nanotechnology in Regenerative Medicine)
  • [Research Area 3] (e.g., Sustainable and Smart Biomaterials)
  • [Research Area 4] (e.g., Biomechanics and Tissue Engineering)

Author Metrics & Impact

  • Publications: [Number] peer-reviewed journal articles, conference papers, and book chapters
  • Citations: [Number] (Google Scholar)
  • h-index: [Value]
  • i10-index: [Value]
  • Editorial Roles: Reviewer/editor for [Journal Names]

Top Noted Publication

  • Argon and Argon–Oxygen Plasma Surface Modification of Gelatin Nanofibers for Tissue Engineering Applications

    • Authors: A. Mozaffari, M. Parvinzadeh Gashti, M. Mirjalili, M. Parsania
    • Journal: Membranes 11 (1), 31
    • Citations: 56 (2021)
    • Summary: This study explores plasma surface modification of gelatin nanofibers using argon and argon-oxygen to enhance biocompatibility and functionality for tissue engineering applications.

  • Polyvinylpyrrolidone/Carbon Nanotube/Cotton Functional Nanocomposite: Preparation and Characterization of Properties

    • Authors: F. Alimohammadi, M. Parvinzadeh Gashti, A. Mozaffari
    • Journal: Fibers and Polymers 19, 1940-1947
    • Citations: 28 (2018)
    • Summary: Investigates the synthesis and characterization of polyvinylpyrrolidone-carbon nanotube-cotton nanocomposites with enhanced functional properties.

  • Air Plasma Functionalization of Electrospun Nanofibers for Skin Tissue Engineering

    • Authors: A. Mozaffari, M. Parvinzadeh Gashti
    • Journal: Biomedicines 10 (3), 617
    • Citations: 17 (2022)
    • Summary: Examines air plasma treatment on electrospun nanofibers to improve cellular attachment and proliferation for skin tissue engineering.

  • Effect of Tannic Acid on Properties of Electrospun Gelatin Nanofibers

    • Authors: A. Mozaffari, M. Mirjalili, M. P. Gashti, M. Parsania
    • Journal: NISCAIR-CSIR, India
    • Citations: 13 (2020)
    • Summary: Studies the impact of tannic acid incorporation on the physical and biological properties of electrospun gelatin nanofibers.

  • Simultaneous Dyeing and Antibacterial Finishing of Nylon Fabric Using Acid Dyes and Colloidal Nanosilver

    • Authors: M. Montazer, A. Mozaffari, F. Alimohammadi
    • Journal: Fibres & Textiles in Eastern Europe 23 (2), 110
    • Citations: 8 (2015)
    • Summary: Discusses a novel approach for dyeing nylon fabric while imparting antibacterial properties using acid dyes and colloidal nanosilver.

  • Electrospinning Nanofibers Gelatin Scaffolds: Nanoanalysis of Properties and Optimizing the Process for Tissue Engineering Functionalization

    • Authors: M. Jalili, A. Mozaffari, M. Gashti, M. Parsania
    • Journal: J. Nanoanalysis 6, 289-298
    • Citations: 7 (2019)
    • Summary: Investigates the optimization of gelatin nanofiber electrospinning parameters for enhanced tissue engineering applications.

  • Effect of Voltage and Distance in Electrospinning of Gelatin

    • Authors: A. Mozaffari, M. Parvinzadeh
    • Journal: Iran. J. Text. Nano-Bio Modif 1, 32-38
    • Citations: 2 (2022)
    • Summary: Evaluates how different electrospinning parameters, such as voltage and collector distance, influence the morphology and mechanical properties of gelatin nanofibers.

  • The Impact of Helium and Nitrogen Plasmas on Electrospun Gelatin Nanofiber Scaffolds for Skin Tissue Engineering Applications

    • Authors: A. Mozaffari, M. Parvinzadeh Gashti, F. Alimohammadi, M. Pousti
    • Journal: Journal of Functional Biomaterials 15 (11), 326
    • Summary: Studies the effect of helium and nitrogen plasma treatments on electrospun gelatin nanofibers to improve scaffold properties for tissue engineering.

Conclusion

Dr. Abolfazl Mozaffari is a highly suitable candidate for the Research for Innovative Practices in Academia Award due to his groundbreaking contributions to nanotechnology, electrospun scaffolds, and tissue engineering applications. His strong research foundation, interdisciplinary approach, and academic mentorship reflect innovative practices in academia. By expanding global collaborations, pursuing commercialization efforts, and integrating AI-driven research, he can further enhance his academic influence and innovation potential.

Alina Elena Coman | Regenerative Medicine | Best Researcher Award

Posted on by Best Paper Award

Dr. Alina Elena Coman | Regenerative Medicine | Best Researcher Award

Third Scientific Researcher at National Research and Development Institute for Textiles and Leather (INCDTP) – Bucharest, Romania.

Dr. Alina Elena Coman is a dedicated scholar and researcher in [Field], known for her expertise in [Key Research Areas]. She has made substantial contributions to [Academic Research, Industry Applications, or Policy Development], shaping the future of [Relevant Sector]. Passionate about advancing knowledge, she actively collaborates with scholars and professionals worldwide.

Publication Profile

Scopus

orcid

Educational Details

Dr. Alina Elena Coman holds a Ph.D. in [Specify Field] from [University Name], where her research focused on [Research Topic]. She earned her Master’s degree in [Field] from [University Name], specializing in [Specialization], and completed her Bachelor’s degree in [Field] at [University Name]. Throughout her academic journey, she has demonstrated excellence in [Key Achievements, Honors, or Scholarships].

Professional Experience

Dr. Coman is a distinguished [Current Position] at [Institution/University Name], where she has been actively engaged in [Teaching, Research, Administrative Roles]. With extensive experience in [Key Areas of Expertise], she has contributed to the academic community through [Notable Initiatives, Course Development, or Industry Collaborations]. She has also held previous positions as [Former Roles], working on [Projects, Supervisions, or Notable Achievements].

Research Interest

Her research focuses on [Main Research Areas], including [Specific Topics]. She is particularly interested in [Emerging Trends, Applications, or Innovations], with an emphasis on [Specific Contributions]. Her work integrates [Interdisciplinary Approaches, Technologies, or Methodologies], making significant advancements in [Field of Study].

Author Metrics & Impact

Dr. Coman’s scholarly contributions are reflected in her [Number] publications in high-impact journals indexed in Scopus/Web of Science. Her work has garnered [Number] citations, with an h-index of [Value], demonstrating the influence of her research. She has also contributed to [Book Chapters, Conferences, or Patents], further enriching the academic discourse in [Field].

Top Noted Publication

1. Bone Fillers with Balance Between Biocompatibility and Antimicrobial Properties

  • Journal: Biomimetics
  • Publication Date: February 10, 2025
  • DOI: 10.3390/biomimetics10020100
  • Contributors: Bogdan Valeriu Sorca, Durmuş Alpaslan Kaya, Madalina Georgiana Albu Kaya, Marius Enachescu, Daniela-Madalina Ghetu, Laura-Bianca Enache, Iulian Boerasu, Alina Elena Coman, Laura Cristina Rusu, Rodica Constantinescu, et al.
  • Summary: This study focuses on the development of bone fillers that balance biocompatibility and antimicrobial properties, improving their performance for orthopedic applications.

2. New Integrated Processing of Chicken Bone Waste Using an Enzymatic Pretreatment and Slow Pyrolysis to Produce Green Chemicals

  • Journal: Energy Conversion and Management
  • Publication Date: January 2025
  • DOI: 10.1016/j.enconman.2024.119281
  • ISSN: 0196-8904
  • Contributors: Gabriela Ionescu, Mircea-Gabriel Macavei, Mariana Pătrascu, Adrian Volceanov, Roxana Pătrascu, Sebastian Werle, Agata Mlonka-Mędrala, Alina Elena Coman, Aneta Magdziarz, Cosmin Mărculescu
  • Summary: This research explores a novel sustainable approach to processing chicken bone waste using enzymatic pretreatment and pyrolysis, aiming to generate eco-friendly biomaterials and chemicals.

3. The Influence of Basil and Cinnamon Essential Oils on Bioactive Sponge Composites of Collagen Reinforced with Hydroxyapatite

  • Journal: Materials
  • Publication Date: January 30, 2025
  • DOI: 10.3390/ma18030626
  • Contributors: Alina Robu, Madalina Georgiana Albu Kaya, Aurora Antoniac, Durmuș Alpaslan Kaya, Alina Elena Coman, Maria-Minodora Marin, Robert Ciocoiu, Rodica Roxana Constantinescu, Iulian Antoniac
  • Summary: This study investigates bioactive sponge composites incorporating essential oils (basil and cinnamon) with collagen-hydroxyapatite scaffolds, evaluating their antimicrobial and regenerative potential.

4. Marine Resources Gels as Main Ingredient for Wound Healing Biomaterials: Obtaining and Characterization

  • Journal: Gels
  • Publication Date: November 11, 2024
  • DOI: 10.3390/gels10110729
  • Contributors: Alina Elena Coman, Maria Minodora Marin, Ana Maria Roșca, Madalina Georgiana Albu Kaya, Rodica Roxana Constantinescu, Irina Titorencu
  • Summary: This research focuses on the development of marine-derived biomaterials, specifically gels for wound healing, optimizing their bioactivity and therapeutic potential.

5. Novel Collagenous Sponge Composites for Osteochondral Regeneration in Rat Knee Models: A Comparative Study of Keratin, Hydroxyapatite, and Combined Treatments

  • Journal: Cureus
  • Publication Date: November 11, 2024
  • DOI: 10.7759/cureus.73428
  • ISSN: 2168-8184
  • Contributors: Florin Popescu, Madalina Georgiana Albu Kaya, Florin Miculescu, Alina Elena Coman, Diana-Larisa Ancuta, Cristin Coman, Adrian Barbilian
  • Summary: This study compares the effectiveness of collagen-based sponge composites enriched with keratin and hydroxyapatite for osteochondral regeneration in animal models, offering insights into their potential clinical applications.

Conclusion

Dr. Alina Elena Coman is a strong candidate for the Best Researcher Award, given her expertise in biomaterials, high-impact publications, and interdisciplinary collaborations. Her research not only advances fundamental science but also has real-world applications in healthcare and sustainability. While increasing grant acquisition and translational research could enhance her profile further, her current contributions already position her as an outstanding researcher in regenerative medicine.