Sotiris Evgenidis | Materials Science | Best Researcher Award

Posted on by ScienceFather

🌟Dr. Sotiris Evgenidis, Materials Science, Best Researcher Award🏆

  •  Doctorate at Aristotle University Of Thessaloniki, Greece

Dr. Sotiris P. Evgenidis is a distinguished chemist with a background in both experimental and theoretical research. He holds a Master’s and a Ph.D. in Chemistry. Throughout his career, he has made significant contributions to various fields, including fluid dynamics, medical diagnostics, and surface engineering. Dr. Evgenidis is known for his innovative research methodologies and extensive publication record in peer-reviewed journals.

Author Metrics

Scopus Profile

ORCID Profile

Dr. Evgenidis’s publications have garnered significant attention within the scientific community, as evidenced by citation metrics from platforms such as Google Scholar and Scopus. His work has received citations from fellow researchers, indicating its impact and relevance in the field of chemistry and related disciplines.

  • Citations: 256
  • Documents: 31
  • h-index: 10

Sotiris P. Evgenidis is affiliated with Aristotle University of Thessaloniki in Greece. He has an ORCID profile linked to his publications. According to Scopus, he has been cited 256 times across 31 documents, resulting in an h-index of 10.

Education

Dr. Evgenidis obtained his Master’s and Ph.D. degrees in Chemistry, providing him with a solid foundation in the principles and methodologies of chemical research. His educational background equipped him with the necessary skills to conduct both experimental and theoretical studies across diverse areas of chemistry.

Research Focus

Dr. Evgenidis’s research interests span several domains, including fluid dynamics, heat and mass transfer, water quality control, medical diagnostics, and surface engineering. He specializes in applying advanced optical, electrical, acoustical, and tomographic methods to study fluid behavior, particularly in extreme conditions such as micro-gravity and hyper-gravity. Additionally, he investigates the stability of emulsions and foams and develops novel surfaces for applications such as enhancing heat transfer and hydrophobicity.

Professional Journey

Throughout his professional journey, Dr. Evgenidis has been actively involved in research, teaching, conference organization, and proposal writing. He has participated in numerous national and international research projects, secured personal scholarships, and contributed to experiments conducted onboard the International Space Station. His expertise has been recognized through awards and distinctions from organizations such as ESA and NASA.

Honors & Awards

Dr. Evgenidis has received numerous honors and awards for his outstanding contributions to the field of chemistry. These include recognition from prestigious organizations like ESA and NASA for successful technology transfer from space to ground. He has also been selected to represent Thallium in the Periodic Table of Younger Chemists, highlighting his innovative research achievements.

Publications Noted & Contributions

Dr. Evgenidis has published extensively in peer-reviewed international journals, with notable contributions to the understanding of fluid dynamics, medical diagnostics, and surface engineering. His research has also been presented in conferences and scientific events worldwide, contributing to the dissemination of knowledge and advancements in his field.

Tuning the Wettability of a Commercial Silane Product to Induce Superamphiphobicity for Stone Protection

  • Published in: Coatings
  • Year: 2023-03
  • Contributors: Panagiotis Manoudis, Zebunnisa Chughtai, Vasilios Tsirdis, Sotiris Evgenidis, Panagiotis K. Spathis, Thodoris Karapantsios, Ioannis Karapanagiotis
  • Description: This journal article discusses the tuning of wettability in a commercial silane product to induce superamphiphobicity for stone protection, presenting findings from collaborative research by multiple authors.

High-resolution concentration measurement in water/n-butanol binary system by means of high-frequency electrical impedance method

  • Published in: Experimental Thermal and Fluid Science
  • Year: 2021
  • Contributors: Tzevelecos, W.; Galand, Q.; Evgenidis, S.; Zacharias, K.; Karapantsios, T.; Van Vaerenbergh, S.
  • Description: This journal article presents a study on high-resolution concentration measurement in a water/n-butanol binary system using a high-frequency electrical impedance method, with contributions from Sotiris Evgenidis and other collaborators.

Characterization of Natural Stone from the Archaeological Site of Pella, Macedonia, Northern Greece

  • Published in: Heritage
  • Year: 2021-12
  • Contributors: Panayotis K. Spathis, Maria Mavrommati, Eirini Gkrava, Vasilios Tsiridis, Sotiris Evgenidis, Ioannis Karapanagiotis, Vasilios Melfos, Thodoris Karapantsios
  • Description: This journal article focuses on the characterization of natural stone from the archaeological site of Pella, Macedonia, Northern Greece. It involves collaborative research by various authors, including Sotiris Evgenidis.

An innovative miniature pulsating emulsification device: flow characterization and measurement of emulsion stability

  • Published in: Colloids and Interfaces
  • Year: 2020
  • Contributors: Chondrou, A.P.; Evgenidis, S.P.; Kostoglou, M.; Karapantsios, T.D.
  • Description: This journal article discusses an innovative miniature pulsating emulsification device, presenting flow characterization and measurement of emulsion stability. Sotiris Evgenidis and other authors contributed to this research.

Associating void fraction signals with bubble clusters features in co-current, upward gas-liquid flow of a non-Newtonian liquid

  • Published in: International Journal of Multiphase Flow
  • Year: 2020
  • Contributors: Gkotsis, P.K.; Evgenidis, S.P.; Karapantsios, T.D.
  • Description: This journal article investigates the association of void fraction signals with bubble cluster features in co-current, upward gas-liquid flow of a non-Newtonian liquid. Sotiris Evgenidis and other researchers contributed to this study.

Research Timeline

Dr. Evgenidis’s research timeline showcases a rich and diverse portfolio of projects and achievements throughout his career. From his early contributions to fluid conductance studies to his recent endeavors in medical diagnostics and surface engineering, each phase of his research journey reflects his continuous pursuit of excellence and innovation in chemistry.

Fatemeh Mohandes | Materials Science | Best Researcher Award

Posted on by ScienceFather

🌟Dr. Fatemeh Mohandes, Materials Science, Best Researcher Award🏆

  •  Doctorate at University of Barcelona, Barcelona, Spain, Spain

Dr. Fatemeh Mohandes is a distinguished researcher in the field of inorganic chemistry, specializing in nanostructures and their applications in various scientific domains. With a rich academic background and extensive research experience, Dr. Mohandes has made significant contributions to the advancement of biomaterials and tissue engineering. Her expertise spans electrochemical-fabricated bioactive devices, hydroxyapatite nanocomposites, injectable hydrogels, magneto-fluorescent agents for bio-imaging, metal-organic frameworks, and superhydrophobic coatings.

Author Metrics

Dr. Mohandes’ research has garnered significant attention within the scientific community, as evidenced by her impressive author metrics. With a citation count of 2,618 and an H-index of 27, her work has made a substantial impact in the field of chemistry and related disciplines.

Scopus Profile

ORCID Profile

Google Scholar Profile

Dr. Fatemeh Mohandes, a researcher affiliated with Sharif University of Technology in Tehran, Iran. Her Scopus Author Identifier is 26634215200. She has been cited 2,618 times across 1,966 documents, with an h-index of 27, indicating the impact and relevance of her scholarly work. Dr. Mohandes has authored or co-authored 64 documents, contributing significantly to the field of research.

Education

Dr. Mohandes completed her academic journey with excellence, earning her Bachelor’s degree in Applied Chemistry, followed by a Master’s and a PhD in Inorganic Chemistry from the University of Kashan, Iran.

Research Focus

Dr. Mohandes’ research interests encompass a wide range of topics, including the synthesis and characterization of nanostructures, biomaterials for bone and teeth tissue engineering, development of injectable hydrogels for cartilage repair, magneto-fluorescent agents for bio-imaging applications, metal-organic frameworks, and superhydrophobic coatings.

Professional Journey

After completing her doctoral studies, Dr. Mohandes embarked on a fulfilling professional journey. She undertook postdoctoral positions at esteemed institutions such as Sharif University of Technology in Iran and the University of Barcelona in Spain. Throughout her career, she has worked on diverse projects spanning nanobiomaterials, superhydrophobic coatings, magnetic nanoparticles, and surface modification of electrodeposited CPs for bio applications.

Honors & Awards

Dr. Mohandes has received recognition for her outstanding contributions to the field of chemistry. Her accolades include the prestigious MARĂŤA ZAMBRANO fellowship for postdoctoral careers awarded by the European Union, the Khwariazmi Prize, and being honored as a distinguished researcher by both the University of Kashan and the Iranian Nanotechnology Community.

Publications Noted & Contributions

Dr. Mohandes has authored or co-authored numerous publications in reputable journals, book chapters, and conference proceedings. Her research contributions cover a wide spectrum of topics, including the synthesis and characterization of nanostructures, bioactive materials, and their applications in tissue engineering and bio-imaging.

An Electroconductive, Thermosensitive, and Injectable Chitosan/Pluronic/Gold-Decorated Cellulose Nanofiber Hydrogel as an Efficient Carrier for Regeneration of Cardiac Tissue

  • Published in: Materials
  • Year: 2022
  • Authors: Hajar Tohidi, Nahid Maleki-Jirsaraei, Abdolreza Simchi, Fatemeh Mohandes, Zahra Emami, Lorenzo Fassina, Fabio Naro, Bice Conti, Federica Barbagallo
  • Description: This study presents a novel hydrogel composed of chitosan, Pluronic, and gold-decorated cellulose nanofibers. The hydrogel demonstrates electroconductivity, thermosensitivity, and injectability, making it a promising carrier for cardiac tissue regeneration.

In vitro study of alginate–gelatin scaffolds incorporated with silica NPs as injectable, biodegradable hydrogels

  • Published in: RSC Advances
  • Year: 2021
  • Author: Fatemeh Mohandes
  • Description: This study investigates alginate-gelatin scaffolds incorporated with silica nanoparticles as injectable and biodegradable hydrogels. The research aims to evaluate the potential of these hydrogels for various applications, including tissue engineering.

Thermosensitive alginate–gelatin–nitrogen-doped carbon dots scaffolds as potential injectable hydrogels for cartilage tissue engineering applications

  • Published in: RSC Advances
  • Year: 2021
  • Author: Fatemeh Mohandes
  • Description: This study explores thermosensitive hydrogels composed of alginate, gelatin, and nitrogen-doped carbon dots for potential use in cartilage tissue engineering applications. The hydrogels possess injectability and responsiveness to temperature changes.

The impact of zirconium oxide nanoparticles content on alginate dialdehyde-gelatin scaffolds in cartilage tissue engineering

  • Published in: Journal of Molecular Liquids
  • Year: 2021
  • Author: Fatemeh Mohandes
  • Description: This research investigates the influence of zirconium oxide nanoparticles content on alginate dialdehyde-gelatin scaffolds for cartilage tissue engineering. The study aims to understand the effects of nanoparticle incorporation on scaffold properties and tissue regeneration outcomes.

Research Timeline

  • 2002-2006: Bachelor’s degree in Applied Chemistry, University of Kashan, Iran
  • 2007-2009: Master’s degree in Inorganic Chemistry, University of Kashan, Iran
  • 2009-2014: PhD in Inorganic Chemistry, University of Kashan, Iran
  • 2015-2021: Postdoctoral position at Sharif University of Technology, Iran
  • 2022-2024: Postdoctoral position at University of Barcelona, Spain

Mohamed Fawzi Zaki | Materials Science | Best Researcher Award

Posted on by ScienceFather

🌟Prof. Mohamed Fawzi Zaki , Materials Science, Best Researcher Award🏆

  •   Professor at EAEA, Egypt

Prof. Dr. Mohamad Fawzi Zaki Morsi is an accomplished physicist with expertise in experimental nuclear physics, particularly in the field of solid-state nuclear track detectors. With a career spanning over two decades, he has made significant contributions to research and education in Egypt and internationally. His work focuses on the development and application of novel techniques for radiation detection and measurement. Dr. Zaki’s dedication to advancing the field of nuclear physics has earned him recognition and respect among his peers.

Author Metrics:

Scopus Profile

ORCID Profile

Google Scholar Profile

Dr. Zaki’s scholarly impact is further evidenced by author metrics such as ORCID and Scopus Author ID. These identifiers provide a comprehensive overview of his publications and citations, underscoring his influence and recognition within the academic community.

  • Citations: 962 citations by 698 documents
  • Documents: 57
  • h-index: 16

M. F. Zaki is affiliated with the Egyptian Atomic Energy Authority in Cairo, Egypt. With 962 citations across 57 documents, Zaki has an h-index of 16, indicating significant impact and productivity in their field. Their research focuses on various aspects of materials science, particularly the modification of polymer properties using radiation techniques. For further information, refer to their ORCID profile.

Education:

Dr. Zaki completed his Bachelor of Science in Physics at Helwan University, Cairo, Egypt, in 1996, graduating with distinction. He pursued his Master’s degree in Physics, specializing in Solid State Physics, at Ain Shams University, Cairo, Egypt, completing it in 2001. Subsequently, he obtained his Ph.D. in Physics, also in Solid State Physics, from Ain Shams University, further solidifying his expertise in the field.

Research Focus:

Dr. Zaki’s research primarily revolves around the identification and measurement of charged heavy particles and radiation using solid-state nuclear track detectors. He has conducted extensive studies on various types of detectors, including CR-39, PADC, and Makrofol, exploring their applications in radiation dosimetry, neutron response, and alpha particle detection. His work contributes to enhancing the understanding and utilization of these detectors in diverse scientific and practical contexts.

Professional Journey:

Dr. Zaki’s professional journey spans multiple academic and research institutions, both in Egypt and abroad. He has held positions ranging from demonstrator to professor, demonstrating his commitment to education and academic excellence. Throughout his career, he has contributed significantly to physics laboratories, curriculum development, and research supervision. His tenure at institutions such as Ain Shams University and Jazan University in Saudi Arabia has enriched both his expertise and his impact on the scientific community.

Honors & Awards:

Dr. Zaki’s contributions to the field of nuclear physics have been recognized through various honors and awards. These accolades reflect his dedication, innovation, and scholarly achievements. His commitment to excellence in research and education has earned him respect and acclaim from colleagues and institutions alike.

Publications Noted & Contributions:

Dr. Zaki has authored numerous publications in reputable journals, conferences, and workshops. His research contributions encompass a wide range of topics, including track detectors, radiation effects, optical properties of polymers, and surface modification techniques. These publications highlight his expertise and significant contributions to advancing knowledge in the field of nuclear physics.

Gamma rays induced modifications in the structural, optical and photoemission properties of PVA/TiO2 nanocomposite films

  • Journal: Physica Scripta
  • Date: 2023-02-01
  • DOI: 10.1088/1402-4896/acb32c
  • Contributors: Basma A El-Badry; G A Khouqeer; M F Zaki

This study investigates the effects of gamma rays on the structural, optical, and photoemission properties of PVA/TiO2 nanocomposite films. The collaboration between Basma A El-Badry, G A Khouqeer, and M F Zaki aims to understand how gamma irradiation influences the properties of polymer films containing TiO2 nanoparticles. The research sheds light on potential applications of these nanocomposites in various fields, including optoelectronics and photonics.

Improve the surface structural and optical properties of PM-355 polymer by alpha particles

  • Journal: Polymer Bulletin
  • Date: 2022-11
  • DOI: 10.1007/s00289-021-04042-9
  • Contributors: M. F. Zaki; Tayseer I. Al-Nagaar; Basma A. Elbadry

In this research published in Polymer Bulletin, M. F. Zaki collaborates with Tayseer I. Al-Nagaar and Basma A. Elbadry to explore the impact of alpha particles on the surface structural and optical properties of PM-355 polymer. The study investigates the potential of alpha particle irradiation to enhance the surface characteristics of polymer materials, offering insights into methods for improving their performance in various applications.

Tuning the optical properties, AC conductivity and dielectric modulus of PVA membrane by inclusion of TiO2 nanoparticles

  • Journal: Bulletin of Materials Science
  • Date: 2022-11-25
  • DOI: 10.1007/s12034-022-02816-z
  • Contributors: M F Zaki; A Tayel; A B El Basaty

M F Zaki, along with A Tayel and A B El Basaty, investigates the tuning of optical properties, AC conductivity, and dielectric modulus of PVA membrane by incorporating TiO2 nanoparticles. Published in the Bulletin of Materials Science, this study explores the potential applications of nanocomposite membranes in areas such as sensors, energy storage, and environmental remediation.

Amendment the physicochemical properties of polycarbonate/polybutylene terephthalate blend by gamma-ray irradiation doses

  • Journal: Polymer Bulletin
  • Date: 2021-12
  • DOI: 10.1007/s00289-020-03474-z
  • Contributors: M. F. Zaki; R. M. Radwan; A. M. Rashad

In this article published in Polymer Bulletin, M. F. Zaki collaborates with R. M. Radwan and A. M. Rashad to study the amendment of physicochemical properties of polycarbonate/polybutylene terephthalate blend using gamma-ray irradiation doses. The research explores how gamma irradiation can be utilized to modify the properties of polymer blends, offering insights into potential applications in materials science and engineering.

Improving photoluminescence, optical and electrical characteristics of PMMA films with gamma irradiation

  • Journal: Physica Scripta
  • Date: 2021-12-01
  • DOI: 10.1088/1402-4896/ac454d
  • Contributors: M F Zaki; N Shubayr; R M Radwan; Y Alashban

M F Zaki, along with N Shubayr, R M Radwan, and Y Alashban, investigates the improvement of photoluminescence, optical, and electrical characteristics of PMMA films using gamma irradiation. Published in Physica Scripta, this research contributes to the understanding of how gamma radiation can be utilized to enhance the properties of polymer films, with potential applications in fields such as optoelectronics and photonics.

Research Timeline:

Throughout his career, Dr. Zaki’s research trajectory has evolved, reflecting the dynamic nature of scientific inquiry and technological advancements. His timeline of research activities demonstrates a continuous commitment to exploring new frontiers, developing innovative techniques, and contributing to the advancement of knowledge in nuclear physics and related disciplines.