Zeev Zalevsky | Materials Science | Best Researcher Award

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Zeev Zalevsky | Materials Science | Best Researcher Award

Prof Zeev Zalevsky, Bar-Ilan University, Israel

Prof. Zeev Zalevsky: A Candidate for the Best Researcher Award.

Publication profile

google scholar

Education

Prof. Zeev Zalevsky has a solid educational background, with a B.Sc. in Electrical Engineering, Cum Laude, from Tel Aviv University (1989-1993). He pursued direct Ph.D. studies at the same university from 1993 to 1996, focusing on “Unconventional Optical Processors for Pattern Recognition and Signal Processing” under the guidance of Prof. David Mendlovic and Prof. Amos Hardy.

Professional Occupation

Prof. Zalevsky has extensive professional experience, starting as a teaching assistant at Tel Aviv University and later serving as an adjunct lecturer at various institutions, including Ariel Academic College and Weizmann Institute. He has held significant roles in both academia and industry, such as Project Officer in the Israeli Air Force’s R&D Department (1996-2001) and Founder and CTO of several technology companies. His contributions to electro-optics and photonics are particularly noteworthy, including his long tenure at Bar-Ilan University, where he founded and led the electro-optics track and the Nano-Photonics Center at BINA.

Scientific Achievements and Awards

Prof. Zalevsky’s work has earned him numerous awards and recognitions. He was instrumental in the development of the Kinect’s optical sensor, which garnered international acclaim and several prestigious awards, including the MacRobert Award for engineering innovation. His research has also been recognized by the National Institutes of Health (NIH), the European Commission, and other prominent organizations. Prof. Zalevsky has also mentored many successful researchers, further amplifying his impact on the scientific community.

Publications and Patents

Prof. Zalevsky’s prolific publication record includes influential works such as “The Fractional Fourier Transform” and “Space–Bandwidth Product of Optical Signals and Systems.” He holds multiple patents, including those for extended depth of focus imaging systems and three-dimensional sensing technologies. His research has significantly advanced the fields of optics, photonics, and biomedical engineering, with applications ranging from ophthalmic devices to remote sensing of biomedical parameters.

Conclusion

Prof. Zeev Zalevsky’s impressive academic background, extensive professional experience, and significant contributions to research make him a highly suitable candidate for the Best Researcher Award. His pioneering work in optics and photonics, coupled with his leadership in both academia and industry, demonstrates his exceptional qualifications for this honor.

Research focus

Zeev Zalevsky is a prominent researcher whose work primarily focuses on optical systems, particularly in areas such as superresolution imaging, 3D sensing, and extended depth of focus. His research includes developing innovative optical methods and systems, such as the Gerchberg-Saxton algorithm in the fractional Fourier domain and techniques for speckle pattern analysis. Zalevsky has made significant contributions to the fields of optical signal processing, synthetic aperture superresolution, and depth-varying light fields. His work is widely recognized, with numerous patents and publications reflecting his expertise in optics and photonics. 🌐🔬📸

Publication top notes

The fractional Fourier transform

Space–bandwidth product of optical signals and systems

Optical method and system for extended depth of focus

Depth-varying light fields for three dimensional sensing

Synthetic aperture superresolution with multiple off-axis holograms

Range mapping using speckle decorrelation

Gerchberg–Saxton algorithm applied in the fractional Fourier or the Fresnel domain

Fractional hilbert transform

Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern

Three-dimensional sensing using speckle patterns

 

 

Tarek Yousef | Material science | Excellence in Academia Award

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Prof Dr. Tarek Yousef | Material science | Excellence in Academia Award

Prof Dr. Tarek Yousef, Imam Mohammad Ibn Saud Islamic University, Saudi Arabia

Based on the detailed academic and professional profile provided, the candidate seems well-suited for the Research for Excellence in Academia Award.

Publication profile

Education and Qualifications

Solid Academic Background: The candidate has a strong educational foundation with a B.Sc. in Chemistry, followed by a Master’s and Ph.D. in Inorganic Chemistry, showcasing a deep understanding of the field.

Relevant Research: The Ph.D. research on “Physicochemical studies on some thiosemicarbazides derivatives” indicates a focus on significant chemical applications, aligning with advanced academic research.

Research and Publications

Diverse Research Interests: The candidate has contributed to various studies related to metal complexes, antimicrobial activity, and computational chemistry, showing a broad range of research interests.

Cited Works: The high citation counts of publications reflect substantial impact and recognition in the academic community.

Professional Experience

Teaching and Research Roles: Experience in teaching and research roles at institutions like the Higher Institute of Engineering and Technology adds to the candidate’s academic credentials.

Expertise in Toxicology: Expertise in toxic and narcotic drug analysis contributes to a well-rounded profile.

 

Training and Skills

Technical Proficiency: Training in various technical and computational tools enhances the candidate’s research capabilities.

Publication Top Notes

  • Bottleneck effect in three-dimensional turbulence simulationsPhysical Review E 68 (2), 026304 🌪️ – Cited by: 161 – Year: 2003
  • Quantum chemical calculations, experimental investigations and DNA studies on (E)-2-((3-hydroxynaphthalen-2-yl) methylene)-N-(pyridin-2-yl) hydrazinecarbothioamide and its Mn …Polyhedron 45 (1), 71-85 🔬 – Cited by: 113 – Year: 2012
  • Synthesis, characterization, optical band gap, in vitro antimicrobial activity and DNA cleavage studies of some metal complexes of pyridyl thiosemicarbazoneJournal of Molecular Structure 1035, 307-317 ⚛️ – Cited by: 95 – Year: 2013
  • Spectral, magnetic, thermal, molecular modelling, ESR studies and antimicrobial activity of (E)-3-(2-(2-hydroxybenzylidene) hydrazinyl)-3-oxo-n (thiazole-2-yl) propanamide …Journal of Molecular Structure 1002 (1-3), 76-85 🔍 – Cited by: 88 – Year: 2011
  • Co (II), Cd (II), Hg (II) and U (VI) O2 complexes of o-hydroxyacetophenone [N-(3-hydroxy-2-naphthoyl)] hydrazone: Physicochemical study, thermal studies and antimicrobial activitySpectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 97, 683-694 ⚗️ – Cited by: 83 – Year: 2012
  • Production of large surface area activated carbon from a mixture of carrot juice pulp and pomegranate peel using microwave radiation-assisted ZnCl2 activation: an optimized …Diamond and Related Materials 130, 109456 🥕 – Cited by: 75 – Year: 2022
  • Structural, spectral analysis and DNA studies of heterocyclic thiosemicarbazone ligand and its Cr (III), Fe (III), Co (II) Hg (II), and U (VI) complexesJournal of Molecular Structure 1045, 145-159 🧬 – Cited by: 75 – Year: 2013
  • Investigation on potential enzyme toxicity of clenbuterol to trypsinSpectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 105, 200-206 💉 – Cited by: 69 – Year: 2013
  • Mesoporous activated carbon produced from mixed wastes of oil palm frond and palm kernel shell using microwave radiation-assisted K2CO3 activation for methylene blue dye …Diamond and Related Materials 131, 109581 🌿 – Cited by: 67 – Year: 2023
  • High-Surface-Area-Activated Carbon Derived from Mango Peels and Seeds Wastes via Microwave-Induced ZnCl2 Activation for Adsorption of Methylene Blue Dye …Molecules 27 (20), 6947 🥭 – Cited by: 63 – Year: 2022

Overall, the candidate’s strong academic qualifications, impactful research contributions, and extensive professional experience make them a strong contender for the Research for Excellence in Academia Award.

 

Adelina Hrituc | Materials Science | Best Researcher Award

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Mrs Adelina Hrituc | Materials Science |  Best Researcher Award

PhD Student industrial engineering at  Gheorghe Asachi Technical University of Iasi, Romania

Adelina Hrițuc, born on February 3, 1995, in Botoșani, Romania, is an accomplished professional in automotive engineering with extensive experience in mechanical design and project management. She holds a Bachelor’s and a Master’s degree in Industrial Engineering from the “Gheorghe Asachi” Technical University of Iaşi. Currently, Adelina is pursuing her PhD at the same institution, focusing on the 3D printing process of plastic materials.

Profile

Education and Training 📚

  • PhD Student (Sept 2020 – Present)
    • Institution: “Gheorghe Asachi” Technical University of Iaşi
    • Faculty: Machine Manufacturing and Industrial Management
    • Domain: Industrial Engineering
    • Research Focus: Testing properties of plastic materials including bending, compression, and 3D printing processes.
    • Publications: 10+ papers presented in conferences, 50+ papers published in collaboration.
  • Master’s Degree (Sept 2018 – July 2020)
    • Institution: “Gheorghe Asachi” Technical University of Iaşi
    • Faculty: Machine Manufacturing and Industrial Management
    • Domain: Industrial Engineering
  • Bachelor’s Degree (Sept 2014 – July 2018)
    • Institution: “Gheorghe Asachi” Technical University of Iaşi
    • Faculty: Machine Manufacturing and Industrial Management
    • Domain: Industrial Engineering
    • Thesis: Injection molding process for plastic parts
  • High School (Sept 2010 – June 2014)
    • Institution: “Mihai Eminescu” National College, Botoșani
    • Specialization: Social Sciences
    • Final Exam Grade: 9.68/10

Work Experience 🏢

  • ME Project Manager – ECU Platform Project (Jan 2023 – Present)
    • Company: Continental Automotive Romania, Iași
    • Responsibilities: Managing mechanical activities, from requirements to sourcing for components.
  • Mechanical Design Engineer (Feb 2019 – Jan 2023)
    • Company: Continental Automotive Romania, Iași
    • Responsibilities: ECU designer in areas of Safety and Motion.
  • Erasmus Student (July 2018 – Sept 2018)
    • Company: Abertax Company
    • Responsibilities: Placement module focusing on injection molding.

Honors and Awards:

  • Prize for PhD student performance
  • Prize for innovation and technological transfer
  • 2 private scholarships from industrial companies

Citations:

  • Citations: 163 citations since 2019
  • h-index: 7
  • i10-index: 3

Publications 📄

  • Wire electrical discharge machining—A review
    • Authors: L. Slătineanu, O. Dodun, M. Coteaţă, G. Nagîţ, I.B. Băncescu, A. Hriţuc
    • Journal: Machines 8 (4), 69
    • Citations: 35
    • Year: 2020
  • Use of the Ishikawa diagram in the investigation of some industrial processes
    • Authors: C. Botezatu, I. Condrea, B. Oroian, A. Hriţuc, M. Eţcu, L. Slătineanu
    • Journal: IOP Conference Series: Materials Science and Engineering 682 (1), 012012
    • Citations: 24
    • Year: 2019
  • Thermal expansion of plastics used for 3D printing
    • Authors: B. Rădulescu, A.M. Mihalache, A. Hriţuc, M. Rădulescu, L. Slătineanu, …
    • Journal: Polymers 14 (15), 3061
    • Citations: 10
    • Year: 2022
  • Accuracy of polylactide parts made by 3D printing
    • Authors: A. Hriţuc, L. Slătineanu, A. Mihalache, O. Dodun, M. Coteaţă, G. Nagîţ
    • Journal: Macromolecular Symposia 389 (1), 1900064
    • Citations: 8
    • Year: 2020
  • Mechanical behaviour of macroscopic interfaces for 3D printed multi-material samples
    • Authors: V. Ermolai, A. Sover, M.A. Boca, A. Hriţuc, L. Slătineanu, G. Nagîţ, …
    • Journal: MATEC Web of Conferences 368, 01004
    • Citations: 7
    • Year: 2022
  • Influence of some microchanges generated by different processing methods on selected tribological characteristics
    • Authors: G. Nagîţ, L. Slătineanu, O. Dodun, A.M. Mihalache, M.I. Rîpanu, A. Hriţuc
    • Journal: Micromachines 13 (1), 29
    • Citations: 7
    • Year: 2021
  • Thermal insulation capacity of a 3D printed material
    • Authors: A. Mihalache, A. Hriţuc, M. Boca, B. Oroian, I. Condrea, C. Botezatu, …
    • Journal: Macromolecular Symposia 396 (1), 2000286
    • Citations: 7
    • Year: 2021
  • Mechanical behaviour of 3d printed PLA hollow spherical parts under axial compression
    • Authors: A. Hriţuc, A. Mihalache, M. Mares, M. Coteaţă, O. Dodun, G. Nagîţ, …
    • Journal: Mater. Plast 57, 13-20
    • Citations: 5
    • Year: 2020

 

Jizhuang Wang | Materials Science Award | Best Researcher Award

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Assoc Prof Dr. Jizhuang Wang | Materials Science Award | Best Researcher Award

Assoc Prof Dr. Jizhuang Wang, Jinan University, China

Dr. Jizhuang Wang is an accomplished chemist and educator. He earned his Ph.D. in Chemistry from the University of Hong Kong (2014-2018) under Associate Professor Tang Jinyao’s mentorship 🧪. His academic journey began with a Bachelor’s degree at Northern University for Nationalities (2006-2010), guided by Professor Yang Jin, followed by a Master’s from China University of Petroleum (2010-2013) under Professor An Changhua’s supervision 🔬. Professionally, he serves as an Associate Professor at Jinan University (2020-present) 📚, following a postdoctoral tenure at the University of Hong Kong (2018-2020) and an engineering role at China Petroleum Pipeline Bureau 🌍.

Publication profile

Educational Background

Dr. Jizhuang Wang’s academic journey is both impressive and diverse. He completed his Ph.D. in Chemistry at the University of Hong Kong (2014-2018), where he worked under the mentorship of Associate Professor Tang Jinyao 🧪. Prior to this, he earned a Master’s degree in Chemical Engineering and Technology from China University of Petroleum (East China) (2010-2013), studying under Professor An Changhua 🔬. His educational foundation was laid at Northern University for Nationalities, where he obtained his Bachelor’s degree in Chemical Engineering and Technology (2006-2010), guided by Professor Yang Jin 📘. His education reflects a strong commitment to excellence in chemistry and engineering. 🌟

Professional Experience

Dr. Jizhuang Wang has built a distinguished career in academia and industry. Since 2020, he has been serving as an Associate Professor at Jinan University, contributing to academic research and teaching 📚. Before this, he was a Postdoctoral Fellow at the University of Hong Kong (2018-2020), where he deepened his research expertise 🧪. His professional journey began in the industry as an Assistant Engineer at the China Petroleum Pipeline Bureau Tianjin Design Institute (2013-2014), where he gained valuable practical experience in engineering and design 🛠️. Dr. Wang’s career reflects a blend of academic excellence and industry knowledge. 🌟

Teaching

Dr. Jizhuang Wang is dedicated to teaching both undergraduate and postgraduate students. He has instructed courses such as “Polymer Material Surface and Interface,” “Chemical Safety,” and “Laboratory Safety and Environmental Protection” at the undergraduate level 📘. For postgraduate students, he teaches “Supramolecular Coordination Chemistry,” “New Energy Materials and Devices,” and “Frontiers and Prospects of Inorganic Chemistry” 🔬. Dr. Wang has been recognized for his excellence in teaching, winning prizes in college-level teaching competitions 🏅. He has also mentored students to achieve significant awards, including the “Graduate National Scholarship” and top prizes in innovation and entrepreneurship competitions 🏆.

Research Focus

Dr. Jizhuang Wang’s research primarily focuses on nanotechnology and materials science. His work includes developing programmable artificial microswimmers for biomedical applications and exploring plasmonic nanoparticles for environmental and energy applications, such as CO₂ reduction and photocatalysis 🌍🔬. He has extensively studied light-driven micro/nanomotors and their biomedical potential, emphasizing innovations in nanomaterials and their applications in energy conversion and environmental protection ⚡🌿. His contributions to the synthesis and design of nanostructures, including photocatalysts and light-responsive materials, reflect a commitment to advancing sustainable and efficient technologies 🌟.

Publications Top Notes

SUK-WON HWANG | Materials Science | Best Researcher Award

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SUK-WON HWANG | Materials Science | Best Researcher Award

Prof SUK-WON HWANG,Korea University,South Korea
Suk-Won Hwang, an innovator in bioelectronics, is renowned for his pioneering work in biodegradable and transient electronic systems. 🧪 His research focuses on developing flexible, stretchable, and implantable devices for biomedical applications. With a prolific publication record, Hwang’s contributions include biocompatible conductive polymers, wireless nerve stimulators, and soft electronics for neuromodulation. His multidisciplinary approach integrates materials science, engineering, and medicine to create bioresorbable electronics that dissolve harmlessly in the body, opening new avenues in healthcare. Hwang’s work underscores a commitment to sustainable, eco-friendly technologies with profound implications for personalized medicine and human-machine interfaces.

Publication profile

Scopus

Education

Dr. Suk-Won Hwang is an esteemed academic with a strong foundation in materials science and engineering. He earned his Bachelor’s and Master’s degrees from Hanyang University in 2003 and 2005, respectively, where he delved into the intricacies of materials science. Building upon this knowledge, he pursued further studies at the University of Illinois at Urbana-Champaign, culminating in a Ph.D. in Materials Science and Engineering in 2013. Throughout his academic journey, Dr. Hwang has demonstrated a commitment to advancing the field through rigorous research and scholarly contributions. His educational background equips him with a comprehensive understanding of materials and their applications, positioning him as a valuable asset to both academia and industry.

 

Research focus

This person’s research focus seems to lie at the intersection of bioresorbable materials and electronic systems, with a particular emphasis on stretchable and transient electronics. They delve into various applications, such as wireless nerve stimulation, surgical meshes with monitoring capabilities and drug delivery, as well as antibacterial and radiative cooling systems. Their work also explores innovative designs inspired by nature, like electric eel-inspired electrocytes for power systems. Through their studies, they aim to develop highly efficient and sustainable solutions for soft, biodegradable electronics. 🌱🔬📱

Publication top notes

Correction to: Highly Elastic, Bioresorbable Polymeric Materials for Stretchable, Transient Electronic Systems (Nano-Micro Letters,

Soft, Long-Lived, Bioresorbable Electronic Surgical Mesh with Wireless Pressure Monitor and On-Demand Drug Delivery

Stretchable and biodegradable composite films for disposable, antibacterial, radiative cooling system

Electric Eel-Inspired Soft Electrocytes for Solid-State Power Systems

Materials and Designs for Extremely Efficient Encapsulation of Soft, Biodegradable Electronics

Ultra-stretchable and biodegradable elastomers for soft, transient electronics

Photothermal Lithography for Realizing a Stretchable Multilayer Electronic Circuit Using a Laser

Vladimir Shiryaev | Middle Infrared Glasses And Fibers Award | Best Researcher Award

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Prof Dr. Vladimir Shiryaev | Middle Infrared Glasses And Fibers Award | Best Researcher Award

Prof Dr. Vladimir Shiryaev, FSBSI G G Devyatykh Institute of Chemistry of High-Purity Substances of the Russian Academy of Sciences, Russia

Prof. Dr. Vladimir Shiryaev 🎓 is a leading scientist specializing in the chemistry of high-purity glasses and fibers. With an extensive academic journey, including a Ph.D. and D.Sc. in Chemistry, he has held various roles at the Institute of Chemistry of High-Purity Substances, Russian Academy of Sciences. As Deputy Director, he leads the Laboratory of Chemistry of High-Purity Non-Oxide Glasses. His international collaborations span France, Brazil, and the UK, contributing significantly to research projects and publications. Awarded for his innovations, including As-Se-Te glass fibers, his expertise shapes advancements in optical materials worldwide.

 

Publication Profile

Scopus

🎓 Academic Journey

Vladimir Shiryaev pursued his academic journey at Nizhny Novgorod State University, earning an M.Sc. in Physics in 1983. He continued his studies, completing a Ph.D. in Chemistry in 1992 and a D.Sc. in 2007, both from the Institute of Chemistry of High-Purity Substances, Russian Academy of Sciences.

🏢 Employment History

Beginning as a student in 1978, Shiryaev progressed through various roles, including engineer and senior engineer at notable institutions like the Nizhny Novgorod’s Research Institute of Radiocommunication and the Institute of Chemistry of the Academy of Sciences of USSR.Awards

Awards

Shiryaev’s contributions were acknowledged with a diploma and bronze medal for his innovative work on As-Se-Te glass fibers.

 

Research Focus

🔬 Vladimir Shiryaev’s research primarily focuses on the development and advancement of chalcogenide optical fibers for mid-infrared (Mid-IR) sensing applications. His contributions span various aspects, including thermal lensing, laser-induced damage, controlled crystallization, and preparation of high-purity chalcogenide glasses. Through international collaborations and numerous publications, he explores the optical properties of chalcogenide glasses, their application in fiber optics, and the utilization of rare earth elements as dopants. Shiryaev’s work is instrumental in pushing the boundaries of Mid-IR spectroscopic sensing, enabling advancements in fields such as environmental monitoring, biomedical diagnostics, and industrial process control.

 

Publication Top Notes

Recent Achievements in Development of Chalcogenide Optical Fibers for Mid-IR Sensing

Thermal Lensing and Laser-Induced Damage in Special Pure Chalcogenide Ge<sub>35</sub>As<sub>10</sub>S<sub>55</sub> and Ge<sub>20</sub>As<sub>22</sub>Se<sub>58</sub> Glasses under Quasi-CW Fiber Laser Irradiation at 1908 nm

$\text{Tb}^{3+}$-GeSbGaSe glass-ceramics for creation of mid-IR radiation sources

Controlled crystallization of BaO-B2O3-Bi2O3 Glass in the temperature range of a supercooled melt in the presence of additional nucleation centers

Development of mid-IR chalcogenide fiber emitters

Mid-IR fiber-optic sensors based on especially pure Ge20Se80 and Ga10Ge15Te73I2 glasses

Mid-IR Spectroscopic Sensing Based on Mulitmode Chalcogenide Fibers

Optical Properties of Rear Earth Doped Chalcogenide Glasses near the Fundamental Absorption Band Edge

Optimal direction and propagation of mid-IR light inside rough and polished diamonds for highly-sensitive transmission measurements of nitrogen content

Ashraf Morsy | Materials Science Award | Best Researcher Award

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Assist Prof Dr. Ashraf Morsy | Materials Science Award | Best Researcher Award

Assist Prof Dr. Ashraf Morsy, Faculty of Engineering, Pharos University, Alexandria, Egypt.

Dr. Ashraf Morsy, a distinguished membrane technology expert 🧪, serves as the Membrane Laboratory Supervisor at Pharos University, Egypt. With dual doctorates in Materials Science and Petrochemicals, he blends academic prowess with over two decades of laboratory experience. His research delves into water treatment, desalination, and polymer modifications, reflected in numerous publications and patents. Dr. Morsy’s leadership extends to mentoring M.Sc. and Ph.D. students, alongside active participation in international conferences. A member of prestigious scientific societies, including the Arab International of Materials Science, his work shapes sustainable solutions for water scarcity challenges. 🌊🔬

 

Publication Profile

Scopus

Education

Dr. Ashraf Morsy’s academic journey spans decades of dedication and expertise 🎓. Beginning with a Bachelor’s degree in Special Chemistry from Alexandria University in 1988, he continued to expand his knowledge with diplomas in Education and Material Science. His pursuit of excellence led to a Master’s degree in Materials Science in 2011 and a dual Doctorate, specializing in Materials Science and Petrochemicals. With a focus on polymer modifications and membrane fabrication for water treatment, Dr. Morsy’s extensive educational background empowers him to innovate sustainable solutions for addressing global water challenges, marking him as a leader in the field. 🌊🔬

 

Experience

Dr. Ashraf Morsy brings a wealth of expertise to the realm of chemical laboratories 🧪. Specializing in water treatment, chlorine, caustic soda production, and polymerization, his proficiency extends across various facets of chemistry. As a seasoned laboratory manager, he excels in overseeing operations and guiding the research endeavors of M.Sc. and Ph.D. students. Dr. Morsy’s adeptness isn’t confined to the lab; he is equally skilled in imparting knowledge. From organic chemistry to membrane technology, his teaching prowess encompasses a wide array of subjects, ensuring a holistic understanding of chemical processes. 🔬📚

Research Focus

Dr. Ashraf Morsy’s research focus primarily revolves around sustainable solutions for water treatment and desalination, marked by his significant contributions to membrane technology 🌊. Through innovative approaches, he explores the development of advanced materials such as cellulose acetate and nanocomposites extracted from natural sources like rice straw. His work spans various facets of membrane fabrication, including polymer modifications and the integration of environmentally friendly additives for enhanced performance. Dr. Morsy’s dedication to addressing water scarcity challenges is evident in his extensive publication record, which underscores his commitment to advancing sustainable practices in the field of chemical engineering. 🔬📑

 

Publication Top Notes 

  1. Utilizing a blend of expandable graphite and calcium/zinc stearate as a heat stabilizer environmentally friendly for polyvinyl chloride by Morsy et al. (2024) 🔄
  2. Cited by 9 articles, Improved anti-biofouling resistances using novel nanocelluloses/cellulose acetate extracted from rice straw based membranes for water desalination by Morsy et al. (2022) 📚
  3. Cited by 17 articles, Evaluation of the water quality and the eutrophication risk in Mediterranean sea area: A case study of the Port Said Harbour, Egypt by Morsy et al. (2022) 🌊
  4. Cited by 2 articles, Development of cellulose acetate membrane performance by carboxylate multiwalled carbon nanotubes by Morsy et al. (2022) 🧪
  5. Cited by 1 article, Energy Recovery from Spray Dryer Exhaust Air Using High-Temperature Heat Pump System by Morsy et al. (2022) 🔄
  6. Cited by 7 articles, Enhancing anti-scaling resistances of aromatic polyamide reverse osmosis membranes using a new natural materials inhibitor by Morsy et al. (2021) 🌿
  7. Cited by 18 articles, Anti-biofouling of 2-acrylamido-2-methylpropane sulfonic acid grafted cellulose acetate membranes used for water desalination by Morsy et al. (2020) 🔬
  8. Cited by 2 articles, Improvement of performance and antifouling properties of reverse osmosis membranes using green additive by Morsy et al. (2019) 🔄
  9. Cited by 19 articles, Reverse osmosis membranes for water desalination based on cellulose acetate extracted from Egyptian rice straw by Morsy et al. (2016) 🌾
  10. Cited by 18 articles, Grafted cellulose acetate reverse osmosis membrane using 2-acrylamido-2-methylpropanesulfonic acid for water desalination by Morsy et al. (2016) 🔬

György Bánhegyi | Polymer Chemistry | Lifetime achievement Award

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Dr.György Bánhegyi : Polymer Chemistry | Lifetime achievement Award

PhD at Medicontur Medical Engineering Ltd, Hungary

Dr. György Bánhegyi is a distinguished scientist with an MSc in chemistry from Eötvös Loránd University, Budapest (1980). In 1982, he earned his doctoral degree in Quantum Chemistry with a focus on force field calculation. From 1980 to 1989, he served as a research scientist at the Research Institute for Plastics Industry, contributing to the physical characterization of plastics and composites. Later, from 1989 to 1991, he worked as a senior research scientist at BioPharm Ltd., specializing in the development and analysis of paramedical products, showcasing his expertise in analytical project management. 🎓🔬

Publication Profile :

Scopus Profile 

Orcid Profile

Education :

Dr. György Bánhegyi is a distinguished chemist with a rich academic journey. He earned his MSc in chemistry from Eötvös Loránd University, Budapest, in 1980, and swiftly obtained his doctoral degree in Quantum Chemistry with a focus on force field calculation in 1982. Dr. Bánhegyi further honed his expertise through postdoctoral fellowships in 1984 and 1988 at the University of Massachusetts (Amherst), delving into polymeric blends and composites. His commitment to continuous learning is evident in his 1990-92 studies in Development Engineering for the Organic Chemical Industry at the Technical University of Budapest. In 1996, he upgraded his academic credentials with a Ph.D. degree, reflecting his ongoing contributions to polymer science. 🎓🔬

Jobs, activities:

Dr. György Bánhegyi, a luminary in polymer science, embarked on his career as a research scientist at the Research Institute for Plastics Industry (1980-1989), specializing in the physical characterization of plastics. He later served as a senior research scientist at BioPharm Ltd. (1989-1991), contributing to the development of paramedical products. Dr. Bánhegyi’s journey includes roles such as marketing manager at Electrical Insulation and Plastics Factory (1991) and senior positions at Furukawa Electric Institute of Technology (1992-1999) and Zoltek Rt. (1999-2000). His impactful career extends to private consulting, editorial roles, and advisory positions, culminating in his current role as CTO of Innovate 3D Global (Melbourne, Australia) since 2022. 🌐🔬

Research Focus :

Dr. György Bánhegyi’s research spans diverse domains, with a primary focus on polymer science and technology. His extensive contributions cover topics such as polymer compatibility in additive manufacturing, high voltage DC cable insulation, dielectric properties of ceramics, and the development of composite materials. With a keen interest in materials science, he delves into the intricacies of polymers, their interfaces, and applications in various fields, including biomedical tools and implants. Dr. Bánhegyi’s work reflects a commitment to advancing knowledge in polymer science, evident through his editorial roles and advisory positions. 🧪🔍

Publication Top Notes :