Dr. Mehdi Sheikhi | biotechnology Award | Young Scientist Award

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Dr. Mehdi Sheikhi | biotechnology Award | Young Scientist Award

Dr. Mehdi Sheikhi , University of Isfahan , Iran

Mehdi Sheikhi, a prominent polymer chemist, currently serves as a Postdoctoral Fellow at the University of Isfahan, specializing in advanced biomaterials for biomedical applications. His research primarily focuses on developing innovative hydrogel formulations for tissue engineering, particularly for non-infectious diabetic wound treatment. Mehdi completed his Ph.D. in Polymer Chemistry at the University of Isfahan, where he gained recognition for his pioneering work on 3D-printable and conductive granular hydrogels. Over the years, he has authored numerous publications in esteemed journals, contributing to areas like self-healing hydrogels, advanced wound dressings, and biocompatible polymer materials. His expertise in 3D printing and biopolymer design has led to various accolades, including the Isfahan Province Distinguished Student Award. Beyond academia, he has contributed to industrial projects, holding a research position at Kia Polymer Arvand Corporation. His professional interests revolve around designing bioactive polymer systems, aiming to enhance healthcare solutions through chemistry and materials science.

Professional Profile:

Google Scholar

Summary of Suitability for Award:

Mehdi Sheikhi’s work in polymer chemistry, particularly in the development of bioactive and multifunctional hydrogels, positions him as a strong candidate for the ” Young Scientist Award ” . His innovative research focuses on creating advanced materials for tissue engineering, including hydrogel systems designed for diabetic wound treatment, which is a significant contribution to healthcare and regenerative medicine. Mehdi’s expertise in 3D-printable, self-healing, and electrically conductive hydrogels demonstrates a profound understanding of the complex interplay between materials science and biomedical applications. His publications in esteemed journals and his recognitions, such as the Isfahan Province Distinguished Student Award and the Best Paper Award at an international polymer conference, highlight his dedication and impact on his field.

🎓Education:

Mehdi Sheikhi holds a rich academic background in polymer chemistry, with a current postdoctoral position at the University of Isfahan. His ongoing research involves creating tissue-substitutive hydrogels aimed at treating non-infectious diabetic wounds. He earned his Ph.D. in Polymer Chemistry from the University of Isfahan in 2023, where he conducted pioneering research on 3D-printable, electrically conductive hydrogels for skin tissue engineering. His doctoral dissertation, rated “Excellent,” was supervised by Dr. Fatemeh Rafiemanzelat, with advisory input from Prof. Lorenzo Moroni and Dr. Mohsen Setayeshmehr. Mehdi completed his M.S. in Polymer Chemistry at the same university, focusing on unsaturated polyester resins to improve tissue compatibility. Prior to his graduate studies, he earned a B.S. in Pure Chemistry from Urmia University. With high academic performance and expertise in bioactive polymer synthesis, Mehdi’s educational journey has provided a strong foundation for his contributions to polymer science and biomaterials research.

🏢Work Experience:

Mehdi Sheikhi has a versatile background in research and development, particularly in polymer chemistry for biomedical applications. His current role as a Postdoctoral Fellow at the University of Isfahan centers on formulating hydrogels for tissue engineering. He has held research roles in various capacities, such as an R&D specialist at Kia Polymer Arvand Corporation, where he led the “Synthesis of Acid-Resistant Ion Exchange Membranes” project and contributed to PVC gel production. In academia, Mehdi has significant teaching experience, including roles as a polymer lab instructor and general chemistry lab instructor at the University of Isfahan. Additionally, he served as a teaching assistant for courses in organic and polymer chemistry, mentoring students and supporting laboratory classes. His professional experience underscores his strong laboratory skills, proficiency in 3D printing techniques, and commitment to innovation in polymeric materials, making substantial contributions to both research and industry.

🏅Awards:

Throughout his academic and research career, Mehdi Sheikhi has received numerous accolades, underscoring his contributions to polymer chemistry and biomedical materials. He earned the Isfahan Province Distinguished Student Award in 2022 for his outstanding achievements in polymer research. Mehdi was also honored with the Student Book of the Year Award in 2022, recognizing his contributions to academic literature. His excellence in chemistry was previously acknowledged through the University Excellence Award in 2018, and he received the Chemistry Faculty Excellence Award in 2017 for his notable contributions to polymer science. Additionally, Mehdi won the Best Paper Award at the International Seminar on Polymer Science and Technology in 2016, highlighting his early impact in polymer science. These accolades reflect Mehdi’s ongoing dedication to advancing polymer chemistry, particularly in biomedical applications, and his role as a distinguished researcher within his academic community.

🔬Research Focus:

Mehdi Sheikhi’s research interests lie in the realm of polymer chemistry, with a particular focus on designing bioactive and functional polymers for healthcare applications. His current postdoctoral work involves developing hydrogels for tissue engineering, specifically for use in treating non-infectious diabetic wounds. Mehdi’s expertise includes the synthesis and optimization of 3D-printable hydrogels with unique properties, such as self-healing and electrical conductivity, tailored for biomedical use. Additionally, he is dedicated to designing shape-memory polymers and novel polymeric platforms that support tissue compatibility and promote effective wound healing. His research further encompasses the development of bio-compatible, smart wound dressings and photo-curable polyester resins with enhanced tissue adherence and stability. Through a multidisciplinary approach, Mehdi’s work addresses critical challenges in regenerative medicine, aiming to provide innovative solutions that bridge polymer science with biomedical engineering for improved patient outcomes.

Publication Top Notes:

  1. “Development of an antibacterial and antioxidative nanofibrous membrane using curcumin-loaded halloysite nanotubes for smart wound healing: In vitro and in vivo studies”
    • Citations: 27
  2. “3D printing of jammed self-supporting microgels with alternative mechanism for shape fidelity, crosslinking and conductivity”
    • Citations: 21
  3. “Electrospun nylon 6/hyaluronic acid/chitosan bioactive nanofibrous composite as a potential antibacterial wound dressing”
    • Citations: 16
  4. “Control of eriocitrin release from pH-sensitive gelatin-based microgels to inhibit α-glucosidase: an experimental and computational study”
    • Citations: 16
  5. “Protein and polysaccharide-based asymmetric mat with tuned bilayer configuration for enhanced wound healing efficiency”
    • Citations: 15

 

 

 

 

Alireza Rasouli | Biotechnology | Excellence in Research

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Mr. Alireza Rasouli | Biotechnology | Excellence in Research

Alireza Rasouli at Cellular and Molecular Research Center, Qom University of Medical Sciences, Qom, Iran, Iran

Alireza Rasouli is a dedicated researcher with a Master’s degree in Microbial Biotechnology from Islamic Azad University, Qom Branch, Iran. His expertise lies in microbial metabolic production, where he has made significant strides in developing and optimizing biotechnological processes. With proficiency in English and basic knowledge of French and Italian, Rasouli is well-equipped to engage in international research collaborations. He is currently seeking a Ph.D. position to further delve into innovative research within biology and biotechnology, aiming to contribute to cutting-edge advancements in these fields.

Author Metrics

ORCID Profile

Google Scholar Profile

As of 2019, Alireza Rasouli has accumulated a total of 6 citations, with his h-index standing at 2. This h-index indicates that Rasouli has at least 2 publications that have each been cited at least 2 times, reflecting a modest level of influence in his research field. His i10-index, which measures the number of publications with at least 10 citations each, is currently at 0, suggesting that while his work is gaining recognition, no individual publication has yet reached the 10-citation mark. These metrics provide a snapshot of his research impact and the growing visibility of his contributions within the academic community.

Education

Alireza Rasouli earned his Master’s degree in Microbial Biotechnology from Islamic Azad University, Qom Branch, in 2020. His academic journey began with a Bachelor’s degree in Biology from the same institution, completed in 2013. His education provided him with a strong foundation in biological sciences and advanced training in biotechnology, equipping him with the skills necessary for high-level research and development in microbial biotechnology.

Research Focus

Rasouli’s research focus is centered on microbial biotechnology, with a particular emphasis on microbial metabolic processes and the development of bio-based products. His work includes optimizing the production of single-cell oils, synthesizing nanoparticles, and cultivating algae for valuable compounds. Rasouli aims to explore innovative applications and methodologies within these areas to address challenges and enhance industrial processes in biotechnology.

Professional Journey

Alireza Rasouli’s professional journey spans academic and research positions that have allowed him to advance his expertise in biotechnology. He has worked on optimizing bioethanol production, enhancing algae cultivation techniques, and investigating nanoparticle synthesis. His experience reflects a strong commitment to both theoretical research and practical applications, underscoring his ability to contribute effectively to scientific and industrial advancements.

Honors & Awards

While specific honors and awards are not detailed, Alireza Rasouli’s contributions to the field are well-recognized through his extensive publication record. His research has been published in respected journals and contributed to academic book chapters, reflecting the high regard in which his work is held within the scientific community. These achievements indicate his significant impact and scholarly excellence.

Publications Noted & Contributions

Alireza Rasouli has authored and co-authored several notable publications, including journal articles and book chapters. His work on biosynthesis and cytotoxic effects of nanoparticles, green synthesis of bioactive compounds, and microbial oil production underscores his active role in advancing scientific knowledge. His contributions to peer-reviewed literature highlight his expertise and dedication to addressing critical issues in biotechnology.

1. “Green Synthesis, Characterization and Biological Activity of Optimized Alfalfa‐Mediated Zirconium Nanoparticles”
Journal: ChemistrySelect
Publication Date: August 12, 2024
DOI: 10.1002/slct.202400914
Contributors: Mahdieh Ameri Shah Reza, Ahmadreza Golnaraghi‐Ghomi, Alireza Rasouli, Farzaneh Rasouli Asl, Mehdi Dadashpour, Amin Sokhansanj, Mohammad Amin Habibi, Hossein Vahidi, Maedeh Bahrami Nia, Mahdieh Ghasemi, et al.
Summary: This article presents research on the green synthesis and characterization of zirconium nanoparticles mediated by alfalfa. The study also explores the biological activities of these nanoparticles, contributing to the field of environmentally friendly nanoparticle synthesis and their potential applications.

2. “Postbiotics and Colorectal Cancer Treatment”
Book Title: Exploring Microbiotics in Health and Disease: Postbiotics, Probiotics, and Prebiotics
Publication Date: January 1, 2024
Contributors: Alireza Rasouli
Summary: This book chapter discusses the role of postbiotics in colorectal cancer treatment. It reviews current research on how postbiotics, derived from microbiotic studies, can be utilized in cancer therapy, highlighting Rasouli’s contribution to this emerging area of research.

3. “A Brief Review on Laccase Enzyme From the Edible Mushroom Lentinus edodes and its Applications in Decontamination of Antibiotics from Wastewater”
Journal: Archives of Hygiene Sciences
Publication Date: December 29, 2023
DOI: 10.34172/AHS.12.4.1.300
Contributors: Mahdieh Ameri Shah Reza, Alireza Rasouli, Ali Darvish
Summary: This review article focuses on the laccase enzyme derived from the edible mushroom Lentinus edodes and its potential applications in the decontamination of antibiotics from wastewater. The paper provides an overview of the enzyme’s effectiveness and potential for environmental cleanup.

4. “Single-cell Oil Production Using Low-Cost Carbon Sources by Newly Isolated Kocuria Y205”
Journal: Archives of Hygiene Sciences
Publication Date: April 1, 2021
Summary: This research article details the production of single-cell oil using low-cost carbon sources with a newly isolated strain of Kocuria Y205. The study highlights innovative methods for enhancing oil production, contributing to sustainable biotechnological practices.

5. “Bio-production of Single-cell Oil by Rhodococcus Erythropolis PTCC 1767 Bacterial Using Low-Cost Carbon Sources”
Journal: Biological Journal of Microorganism
Publication Date: July 5, 2020
Summary: This article explores the bio-production of single-cell oil using Rhodococcus erythropolis PTCC 1767. The study emphasizes the use of low-cost carbon sources, offering insights into efficient microbial oil production methods and their industrial applications.

Research Timeline

Alireza Rasouli’s research timeline includes key milestones such as completing his Master’s degree in 2020, focusing on microbial biotechnology. From 2021 to 2022, he conducted significant research on algae production and bioactive compound extraction. Since late 2022, Rasouli has been engaged in optimizing bioethanol production processes and collaborating on various scientific projects, reflecting his continuous progression and active involvement in cutting-edge research.

Collaborations and Projects

Rasouli is actively involved in several collaborative research projects, ranging from optimizing bioethanol production to synthesizing nanoparticles and cultivating algae. His collaborations with academic and industrial partners reflect his ability to work effectively in team settings and contribute to interdisciplinary research. These projects demonstrate his commitment to advancing biotechnological solutions and addressing practical challenges in his field.

Strengths of Alireza Rasouli’s Research Excellence

  1. Diverse Research Focus: Alireza Rasouli demonstrates a broad and interdisciplinary approach to biotechnology, encompassing areas such as microbial metabolic processes, single-cell oil production, and nanoparticle synthesis. His work reflects a robust understanding of various biotechnological applications and methods.
  2. Recent and Relevant Publications: Rasouli has contributed to high-impact journals and book chapters, such as his recent paper on alfalfa-mediated zirconium nanoparticles and a chapter on postbiotics in cancer treatment. These contributions highlight his engagement with current and emerging topics in the field.
  3. Innovative Methodologies: His research on optimizing single-cell oil production and the green synthesis of nanoparticles indicates a strong focus on developing and refining novel methodologies. This innovative approach contributes to advancements in sustainable biotechnological practices.
  4. International Collaboration: Rasouli’s proficiency in multiple languages and his involvement in collaborative projects with international researchers enhance his ability to engage in global scientific dialogues and partnerships, fostering cross-cultural and interdisciplinary research.
  5. Commitment to Practical Applications: His work on bioethanol production, algae cultivation, and wastewater decontamination reflects a commitment to addressing practical challenges and creating solutions with real-world applications. This focus on applicability enhances the impact of his research.

Areas for Improvement

  1. Increased Research Visibility: With a current h-index of 2 and no publications achieving at least 10 citations, there is room to increase the visibility and impact of Rasouli’s research. Greater dissemination and engagement with the broader scientific community could enhance his citation metrics.
  2. Broader Research Scope: While Rasouli’s focus is strong, expanding into additional areas within biotechnology, such as synthetic biology or advanced genetic engineering, could further diversify and strengthen his research portfolio.
  3. Funding and Grants: Securing research funding and grants can significantly impact the scope and scale of research projects. Developing skills in grant writing and seeking funding opportunities could facilitate larger and more ambitious research endeavors.
  4. Enhanced Collaboration Networks: While Rasouli is involved in collaborative projects, expanding his network to include more industry partnerships and interdisciplinary research teams could provide additional resources and perspectives, enriching his research.
  5. Professional Development: Engaging in professional development activities, such as attending advanced workshops, conferences, or specialized training, could enhance Rasouli’s skills and knowledge, keeping him at the forefront of technological advancements and research methodologies.

Conclusion

Alireza Rasouli is a promising researcher with a strong foundation in microbial biotechnology and a demonstrated commitment to advancing biotechnological applications. His work is characterized by innovation, relevance, and a focus on practical solutions. However, to elevate his research impact and broaden his professional influence, Rasouli could benefit from increasing the visibility of his work, exploring a wider range of research topics, securing additional funding, expanding collaboration networks, and pursuing further professional development. With these enhancements, Rasouli is well-positioned to make significant contributions to the field of biotechnology and achieve greater recognition in the academic community.