Faheem Abbas | Chemistry | Young Scientist Award

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Dr. Faheem Abbas | Chemistry | Young Scientist Award

Reseach Assistant | Tsinghua University | China

Dr. Faheem Abbas is a researcher in inorganic and computational chemistry with expertise in electrocatalysis, density functional theory, and hybrid functional materials. His research centers on water-splitting reactions using polyoxometalate-based systems, integrating theoretical modeling with experimental validation. He has contributed extensively to catalyst design for hydrogen production, energy conversion, molecular sensing, and materials modeling, with numerous first-author publications in leading chemistry journals. His scholarly output demonstrates strong research impact with approximately 795 total citations across 93 peer-reviewed documents and an h-index of 16. His professional experience includes advanced analytical quality control, electrochemical characterization, materials synthesis, and active peer-review service for high-impact international journals.

Citation Metrics (Scopus)

800

600

400

200

0

Citations
795

Documents
93

h-index
16

🟦 Citations    🟥 Documents    🟩 h-index


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Featured Publications

 

Stefanos Karkanis | Polymer Science | Young Researcher Award

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Dr. Stefanos Karkanis | Polymer Science | Young Researcher Award

Aristotle University of Thessaloniki | Greece

Dr. Stefanos Karkanis is a polymer chemist specializing in sustainable polymer synthesis, advanced composite materials, and dynamic covalent chemistry. His research integrates chemical recycling of plastics with the development of high-performance thermoplastic and thermoset systems, including BPA-free dental resins and adaptable polymer networks. He is experienced in PET valorization, monomer design, and polymer optimization supported by techniques such as FTIR, NMR, DSC, TGA, GPC, and HPLC. His work extends to nanoparticle-enhanced dental materials, mechanical and thermal evaluation, and ISO-aligned quality control. He brings strong expertise in R&D, materials innovation, and leadership within multidisciplinary polymer science environments.

Citation Metrics (Scopus)

150

100

50

0

Citations
16

Documents
4

h-index
2

                           Citations
       Documents
       h-index


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Featured Publications

Sachin Mishra | Materials Science | Editorial Board Member

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Dr. Sachin Mishra | Materials Science | Editorial Board Member

Principal Investigator | University of Rovira I Virgilli | Spain

Dr. Sachin Mishra is a multidisciplinary researcher whose work lies at the intersection of biosensors, nanomaterials, smart biomaterials, and advanced capacitive sensing technologies. His research focuses on creating innovative, application-driven sensor systems that address emerging needs in healthcare diagnostics, environmental monitoring, and bioanalytical engineering. Through his expertise in nanotechnology and functional material design, he develops highly sensitive, miniaturized platforms capable of detecting chemical and biological analytes with exceptional precision. His contributions include the integration of nanostructured materials into next-generation biosensing interfaces, enabling improved signal transduction, enhanced biocompatibility, and superior device performance. He has been actively involved in academic and industrial research environments in different countries, collaborating with interdisciplinary teams to translate fundamental nanoscience into real-world technologies. His work emphasizes capacitive biosensors and engineered biomaterials that support label-free, rapid, and cost-effective analytical solutions for global challenges. Dr. Mishra’s scientific output spans high-quality publications, collaborative projects, and contributions to the development of smart, responsive materials for biomedical and electronic applications. His professional experience also includes leading research directions, supervising experimental activities, and advancing sensor fabrication techniques through micro- and nano-engineering approaches. He remains committed to exploring the potential of nanotechnology to revolutionize biosensing platforms, expand the capabilities of portable diagnostic devices, and contribute to smart healthcare and sustainable technological innovations worldwide.

Profile: Scopus | Orcid | Google Scholar

Featured Publications

Sharma, P. K., Kim, E. S., Mishra, S., Ganbold, E., Seong, R. S., Kaushik, A. K., … et al. (2021). Ultrasensitive and reusable graphene oxide-modified double-interdigitated capacitive (DIDC) sensing chip for detecting SARS-CoV-2. ACS Sensors, 105.

Razlansari, M., Ulucan-Karnak, F., Kahrizi, M., Mirinejad, S., Sargazi, S., … Mishra, S., et al. (2022). Nanobiosensors for detection of opioids: A review of latest advancements. European Journal of Pharmaceutics and Biopharmaceutics, 179, 79–94.

Mishra, S., Kim, E. S., Sharma, P. K., Wang, Z. J., Yang, S. H., Kaushik, A. K., Wang, C., … et al. (2020). Tailored biofunctionalized biosensor for the label-free sensing of prostate-specific antigen. ACS Applied Bio Materials, 3(11), 7821–7830.

Mishra, P., Lakshmi, G., Mishra, S., Avasthi, D. K., Swart, H. C., Turner, A. P. F., … et al. (2017). Electrocatalytic biofuel cell based on highly efficient metal–polymer nano-architectured bioelectrodes. Nano Energy, 39, 601–607.

Sharma, P. K., Kim, E. S., Mishra, S., Ganbold, E., Seong, R. S., Kim, Y. M., Jahng, G. H., … et al. (2022). Ultrasensitive probeless capacitive biosensor for amyloid beta (Aβ1-42) detection in human plasma using interdigitated electrodes. Biosensors and Bioelectronics, 212, 114365.

Mohamed Abu Saied | Polymer Chemistry | Best Researcher Award

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Prof. Dr. Mohamed Abu Saied | Polymer Chemistry | Best Researcher Award

Professor of Chemistry | City of Scientific Research and Technological Applications | Egypt

Prof. Dr. Mohamed Abu Saied is a distinguished professor specializing in polymer science, materials engineering, and nanotechnology, with extensive experience in research, teaching, and academic leadership. He has made significant contributions to the development, synthesis, and characterization of polymers, nanofibers, and advanced membrane materials for applications in energy, water treatment, environmental sustainability, and biomedical technologies. Throughout his career, he has successfully led and collaborated on numerous multidisciplinary projects, securing substantial research funding from national and international agencies and fostering partnerships across academia and industry. As an academic leader, he has overseen the establishment of electronic laboratory management systems, enhanced research infrastructure, and promoted interdisciplinary programs to advance innovation and scientific excellence. He has extensive experience mentoring graduate students, postdoctoral researchers, and junior faculty, guiding them to publish in high-impact journals and achieve professional advancement. His research has resulted in a robust portfolio of publications, patents, and book chapters, reflecting a strong international presence and influence in the fields of polymer science and nanotechnology. Beyond research, he has actively contributed to professional societies, editorial boards, and scientific committees, supporting the advancement of materials science and sustainable technologies. His work emphasizes practical solutions to global challenges, including clean energy, water purification, and environmentally friendly materials, positioning him as a recognized leader in translating fundamental science into impactful technological innovations.

Profiles: Scopus | Orcid

Featured Publications

Afifi, K. A., Abu Saied, M. A., Abdel Khaleq, N., & Fahmy, A. (2025). Polystyrene waste-xanthan gum membranes: Modification, preparation and evaluation as polyelectrolyte membranes. International Journal of Environmental Science and Technology.

Hassan, N., El-Desouky, E. A., Eldeeb, E. A., Abdel-Naeem, G., Elhenawy, A., Abualnaja, K. M., & Abu-Saied, M. A. (2025). Sulfonated poly (acrylonitrile-co-styrene) for methylene blue remediation from aqueous media: Experimental and theoretical study. Journal of Molecular Liquids.

Sbei, O., Elaoud, A., Ben Salah, E., Abu Saied, M. A., & Trigui, M. (2025). Effect of green TiO₂/Fe₃O₄ nanocomposites on water treatment and its agronomic application. Surfaces and Interfaces.

Mansy, A. E., El Desouky, E. A., Osman, A. I., Taha, T. H., Abu-Saied, M. A., El-Gendi, H., Tian, Z.-Y., & Amer, R. A. (2025). Sustainable bioethanol production from soft tissue waste: Combining hybrid hydrolysis, yeast fermentation, and membrane‐based separation. Advanced Energy and Sustainability Research.

Abu-Saied, M. A., Abdel Rafea, M., El Desouky, E. A., Ahmed, A. M., & Abusaif, M. S. (2025). High-performance polyimide membranes containing graphene oxide for reverse osmosis desalination. ACS Omega.

Theodoros Karakasidis | Materials Science | Best Academic Researcher Award

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Prof. Theodoros Karakasidis | Materials Science | Best Academic Researcher Award

Professor at University of Thessaly, Greece

Prof. Theodoros Karakasidis is a Professor of Applied Physics at the Department of Physics, University of Thessaly, Lamia, Greece. He serves as the Director of the Condensed Matter Physics Laboratory and the Graduate Program in “Applied Physics”. He holds a BSc in Physics from Aristotle University of Thessaloniki (1989), an MSc and PhD in Physics from University Pierre et Marie Curie (Paris 6), and a Master’s in Education from the Hellenic Open University.

Profile:

🎓 Education:

  • BSc in Physics, Aristotle University of Thessaloniki 🇬🇷 (1989, GPA 9.51/10)

  • MSc & PhD in Physics, University Pierre et Marie Curie – Paris VI 🇫🇷

  • Master’s in Education, Hellenic Open University (2009)

🧪 Research Interests:

  • Computational Materials Science & Nanotechnology 🧬

  • Machine Learning & Complex Systems 🔁

  • Physics Education & ICT in Teaching 🎓

  • Nonlinear Dynamics & Time Series Analysis ⏳

🎓 Academic Roles:

  • Professor of Applied Physics, Univ. of Thessaly

  • Director, Condensed Matter Physics Lab 🔬

  • Director, MSc Program “Applied Physics” 📘

  • Chairman, Dept. of Physics (2022–present)

  • Past Deputy Chair, Dept. of Civil Engineering

📚 Teaching & Supervision:

  • 25+ years teaching undergraduate & graduate courses

  • Supervisor of 20+ MSc, 8+ PhD, and 2 postdoctoral researchers

  • Courses include Electromagnetism, Condensed Matter Physics, and Computational Science

🔬 Projects & Research Leadership:

  • Principal Investigator in national and EU-funded projects (EUROFUSION, HFRI, Horizon)

  • Key focus: digital materials design, particle-based modeling, smart water purification, and magnetic nanofluidics

🌐 International Collaborations:

  • Collaborations with Strathclyde (UK), NTNU (Norway), Nazarbayev University (Kazakhstan), ICAMS (Germany)

  • Erasmus+, COST Actions, Marie Curie Evaluator

📖 Editorial & Peer Review:

  • Reviewer for top journals: Phys. Rev. E, Scientific Reports, Nanotechnology, MRS Comm.

  • Guest Editor: Desalination and Water Treatment, Computational Materials Science, Environmental Processes

🧾 Distinctions:

  • Top-cited and featured articles in journals like Journal of Theoretical Biology

  • Best Paper & Young Researcher Award at ICDDNBEA 2021 🏆

  • Popular science book author: “Roulis the Science Cat” 🐱📘

💻 Technical Expertise:

  • Expert in FORTRAN, C, Python, Parallel Computing (MPI), MATLAB

  • Skilled in academic platforms (Blackboard, Moodle, E-Class)

📣 Memberships & Outreach:

  • Member of APS, EPS, MRS, IEEE, American Nano Society

  • Promoter of science in schools and public outreach events 🎤

  • Organized student teams for science competitions (e.g., FameLab)

Citation Metrics (Google Scholar):

  • Total Citations: 3,498

  • Citations since 2020: 1,707

  • h-index: 33

  • h-index since 2020: 22

  • i10-index: 76

  • i10-index since 2020: 48

Publication Top Notes:

  1. Use of fuzzy clustering technique and matrices to classify amino acids and its impact to Chou’s pseudo amino acid composition
    D.N. Georgiou, T.E. Karakasidis, J.J. Nieto, A. Torres
    Journal of Theoretical Biology, 257(1), 17–26 (2009). [Cited by: 229]

  2. Transport properties of liquid argon in krypton nanochannels: anisotropy and non-homogeneity introduced by the solid walls
    F. Sofos, T. Karakasidis, A. Liakopoulos
    International Journal of Heat and Mass Transfer, 52(3–4), 735–743 (2009). [Cited by: 157]

  3. Artificial intelligence in physical sciences: Symbolic regression trends and perspectives
    D. Angelis, F. Sofos, T.E. Karakasidis
    Archives of Computational Methods in Engineering, 30(6), 3845–3865 (2023). [Cited by: 156]

  4. Multiscale modeling in nanomaterials science
    T.E. Karakasidis, C.A. Charitidis
    Materials Science and Engineering: C, 27(5–8), 1082–1089 (2007). [Cited by: 138]

  5. Effects of wall roughness on flow in nanochannels
    F.D. Sofos, T.E. Karakasidis, A. Liakopoulos
    Physical Review E, 79(2), 026305 (2009). [Cited by: 127]

  6. Heavy Metal Adsorption Using Magnetic Nanoparticles for Water Purification: A Critical Review
    C. Liosis, A. Papadopoulou, E. Karvelas, T.E. Karakasidis, I.E. Sarris
    Materials, 14(24), 7500 (2021). [Cited by: 99]

  7. The application of complex network time series analysis in turbulent heated jets
    A.K. Charakopoulos, T.E. Karakasidis, P.N. Papanicolaou, A. Liakopoulos
    Chaos: An Interdisciplinary Journal of Nonlinear Science, 24(2), 024408 (2014). [Cited by: 99]

  8. Surface wettability effects on flow in rough wall nanochannels
    F. Sofos, T.E. Karakasidis, A. Liakopoulos
    Microfluidics and Nanofluidics, 12, 25–31 (2012). [Cited by: 78]

  9. Effect of wall roughness on shear viscosity and diffusion in nanochannels
    F. Sofos, T.E. Karakasidis, A. Liakopoulos
    International Journal of Heat and Mass Transfer, 53(19–20), 3839–3846 (2010). [Cited by: 78]

  10. Grain-boundary diffusion of cation vacancies in nickel oxide: a molecular-dynamics study
    T. Karakasidis, M. Meyer
    Physical Review B, 55(20), 13853 (1997). [Cited by: 75]

  11. A comment on a rigid-ion potential for UO₂
    T. Karakasidis, P.J.D. Lindan
    Journal of Physics: Condensed Matter, 6(15), 2965 (1994). [Cited by: 68]

  12. On the magnetic aggregation of Fe₃O₄ nanoparticles
    E.G. Karvelas, N.K. Lampropoulos, L.T. Benos, T. Karakasidis, I.E. Sarris
    Computer Methods and Programs in Biomedicine, 198, 105778 (2021). [Cited by: 65]

  13. Friction factor in nanochannel flows
    A. Liakopoulos, F. Sofos, T.E. Karakasidis
    Microfluidics and Nanofluidics, 20, 1–7 (2016). [Cited by: 64]

  14. A short survey on genetic sequences, Chou’s pseudo amino acid composition and its combination with fuzzy set theory
    D.N. Georgiou, T.E. Karakasidis, A.C. Megaritis
    The Open Bioinformatics Journal, 7(1) (2013). [Cited by: 62]

  15. Unified description of size effects of transport properties of liquids flowing in nanochannels
    A.E. Giannakopoulos, F. Sofos, T.E. Karakasidis, A. Liakopoulos
    International Journal of Heat and Mass Transfer (2012). [Cited by: 60]

  16. Non-equilibrium molecular dynamics investigation of parameters affecting planar nanochannel flows
    F. Sofos, T.E. Karakasidis, A. Liakopoulos
    Journal of Contemporary Engineering Science, 2, 283–298 (2009). [Cited by: 59]

  17. Micromixing efficiency of particles in heavy metal removal processes under various inlet conditions
    E. Karvelas, C. Liosis, L. Benos, T. Karakasidis, I. Sarris
    Water, 11(6), 1135 (2019). [Cited by: 55]

  18. Current trends in fluid research in the era of artificial intelligence: A review
    F. Sofos, C. Stavrogiannis, K.K. Exarchou-Kouveli, D. Akabua, G. Charilas, …
    Fluids, 7(3), 116 (2022). [Cited by: 51]

  19. Dissipative particle dynamics investigation of parameters affecting planar nanochannel flows
    D. Kasiteropoulou, T.E. Karakasidis, A. Liakopoulos
    Materials Science and Engineering: B, 176(19), 1574–1579 (2011). [Cited by: 50]

  20. On perturbations of the Mandelbrot map
    J. Argyris, I. Andreadis, T.E. Karakasidis
    Chaos, Solitons & Fractals, 11(7), 1131–1136 (2000). [Cited by: 50]