Jaouad Bensalah | Synthesis and Self Assembly of Nanomaterials | Best Researcher Award

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Prof. Dr. Jaouad Bensalah | Synthesis and Self Assembly of Nanomaterials | Best Researcher Award

Laboratory of Advanced Materials and Process Engineering, Department of Chemistry, Faculty of Sciences | Ibn Tofail University | Morocco

Prof. Dr. Jaouad Bensalah, a distinguished researcher at the Laboratory of Advanced Materials and Process Engineering, Department of Chemistry, Faculty of Sciences, Ibn Tofail University, Morocco, has made significant contributions in materials chemistry, nanocomposites, adsorption science, and corrosion inhibition. With 693 citations, 46 Scopus-indexed publications, and an h-index of 17, his research demonstrates a consistent impact across multidisciplinary fields such as nanotechnology, environmental chemistry, surface science, and process engineering. His scholarly output includes over 40 high-impact papers in Q1 and Q2 journals such as Scientific Reports, Environmental Science and Pollution Research, Inorganic Chemistry Communications, and ACS Omega, focusing on adsorption mechanisms, green corrosion inhibitors, polymeric resins, and nanocomposite synthesis. His works integrate experimental studies with DFT, MD, and MC simulations, advancing theoretical understanding of adsorption thermodynamics and corrosion control. Prof. Dr. Jaouad Bensalah’s research also explores eco-friendly solutions for heavy metal and dye removal, polymer-based adsorbents, and sustainable materials derived from natural and recycled sources. His international collaborations span Germany, Saudi Arabia, Finland, Turkey, Canada, and Qatar, enhancing the global reach of his investigations. He has presented extensively at international conferences including ICMES, I2SM, and CIMAE, highlighting innovative approaches to environmental remediation and materials protection. As a reviewer for MDPI and Hindawi journals and an academic editor for Separations (MDPI) and Atlantic Journal of Life Sciences, he contributes to advancing global research quality. Recognized for his scientific rigor and leadership in nanomaterials and corrosion science, Prof. Dr. Jaouad Bensalah’s research continues to influence the development of sustainable technologies for industrial and environmental applications. His pioneering studies on polymeric ion-exchange resins and eco-corrosion inhibitors mark a significant step toward greener chemistry and materials innovation.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

1. Bensalah, J., Berradi, M., Habsaoui, A., Allaoui, M., Essebaai, H., El Khattabi, O., et al. (2021). Kinetic and thermodynamic study of the adsorption of cationic dyes by the cationic artificial resin Amberlite® IRC50. Materials Today: Proceedings, 45, 7468–7472.

2. Bensalah, J., Habsaoui, A., Dagdag, O., Lebkiri, A., Ismi, I., Rifi, E. H., Warad, I., et al. (2021). Adsorption of a cationic dye (Safranin) by artificial cationic resins Amberlite® IRC-50: Equilibrium, kinetic and thermodynamic study. Chemical Data Collections, 35, 100756.

3. El Amri, A., Bensalah, J., Idrissi, A., Lamya, K., Ouass, A., Bouzakraoui, S., et al. (2022). Adsorption of a cationic dye (Methylene bleu) by Typha Latifolia: Equilibrium, kinetic, thermodynamic and DFT calculations. Chemical Data Collections, 38, 100834.

4. Bensalah, J., Benhiba, F., Habsaoui, A., Ouass, A., Zarrouk, A., & Rifi, E. H. (2022). The adsorption mechanism of the anionic and cationic dyes of the cationic resin A®IRC-50: Kinetic study and theoretical investigation using DFT. Journal of the Indian Chemical Society, 100512.

5. Bensalah, J., Idrissi, A., El Faydy, M., Doumane, G., Staoui, A., Hsissou, R., et al. (2023). Investigation of the cationic resin as a potential adsorbent to remove MR and CV dyes: Kinetic, equilibrium isotherms studies and DFT calculations. Journal of Molecular Structure, 1278, 134849.

Abdiel De Jesus Espinosa Champo | Computational Nanotechnology | Best Researcher Award

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Mr. Abdiel De Jesus Espinosa Champo | Computational Nanotechnology | Best Researcher Award

PhD Candidate | National Autonomous University of Mexico | Mexico

Mr. Abdiel De Jesús Espinosa Champo is a Ph.D. candidate in Physics at the National Autonomous University of Mexico (UNAM), conducting advanced research on the modulation of electronic, optical, and topological properties in low-dimensional systems. His work bridges theoretical condensed matter physics and quantum materials science, with emphasis on flat-band phenomena, graphene systems, topological phases, and quantum geometry. He has authored 10 peer-reviewed journal publications (8 as first author) in internationally reputed journals including Physical Review B, Journal of Physics: Condensed Matter, Physica E, and Journal of Vacuum Science & Technology B. His publications explore frontier topics such as flat-band electronic states, Berry and Aharonov–Anandan phases in 2D materials, magnetic susceptibility in curved graphene, and metal–insulator transitions in borophene. His findings contribute significantly to the theoretical understanding of electronic transport and topological effects in next-generation quantum materials. Mr. Abdiel De Jesús Espinosa Champo’s research achievements include a preprint on topological quantum geometry transitions and ongoing collaborative work at IMDEA Nanoscience in Madrid. He is recognized for theoretical innovation in explaining magnetic, geometric, and optical anomalies in 2D materials. With 58 citations, 6 indexed documents, and an h-index of 3 on Scopus, his scholarly influence continues to grow within the global physics community. His research contributions have been supported by CONAHCyT Fellowship and presented in international workshops at the Max Planck Institute in Germany. His research areas encompass quantum geometry, flat-band systems, topological materials, electronic transport theory, and optical responses in nanostructures. Through his rigorous R&D efforts, Abdiel Espinosa Champo has established himself as an emerging physicist contributing to the theoretical foundations of low-dimensional quantum systems.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

  1. Champo, A. E., & Naumis, G. G. (2019). Metal–insulator transition in 8-Pmmn borophene under normal incidence of electromagnetic radiation. Physical Review B, 99(3), 035415. https://doi.org/10.1103/PhysRevB.99.035415

  2. Naumis, G. G., Navarro-Labastida, L. A., Aguilar-Méndez, E., & Espinosa-Champo, A. (2021). Reduction of the twisted bilayer graphene chiral Hamiltonian into a 2×2 matrix operator and physical origin of flat bands at magic angles. Physical Review B, 103(24), 245418. https://doi.org/10.1103/PhysRevB.103.245418

  3. Navarro-Labastida, L. A., Espinosa-Champo, A., Aguilar-Méndez, E., & Naumis, G. G. (2022). Why the first magic angle is different from others in twisted graphene bilayers: Interlayer currents, kinetic and confinement energy, and wave-function localization. Physical Review B, 105(11), 115434. https://doi.org/10.1103/PhysRevB.105.115434

  4. Champo, A. E., Roman-Taboada, P., & Naumis, G. G. (2018). Landauer-Büttiker conductivity for spatially dependent uniaxial strained armchair-terminated graphene nanoribbons. Physica E: Low-Dimensional Systems and Nanostructures, 102, 123–131. https://doi.org/10.1016/j.physe.2018.05.001

  5. Espinosa-Champo, A. de J., & Naumis, G. G. (2024). Flat bands without twists: Periodic holey graphene. Journal of Physics: Condensed Matter, 36(27), 275703. https://doi.org/10.1088/1361-648X/ad39be

 

Sunkook Kim | Nanophotonics and Nanoelectronics | Best Researcher Award

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Prof. Dr. Sunkook Kim | Nanophotonics and Nanoelectronics | Best Researcher Award

Professor | Sungkyunkwan University | South Korea

Prof. Dr. Sunkook Kim is an internationally recognized scientist whose pioneering contributions lie at the intersection of 2D materials, nanoelectronics, and flexible device engineering. With over 9,566 citations, 231 publications, and an h-index of 46, his research has profoundly influenced advanced materials and next-generation electronic systems. His work encompasses high-mobility transistors, flexible OLED and micro-LED displays, nanostructured memristors, neuromorphic sensors, and anticounterfeiting technologies based on MoS₂, WS₂, and transition metal dichalcogenides (TMDs). His studies have been featured in Nature Electronics, Nature Communications, Advanced Materials, ACS Nano, and Advanced Functional Materials, many highlighted as cover articles, reflecting the high impact of his research. Prof. Dr. Sunkook Kim’s R&D achievements bridge fundamental material synthesis and device integration, leading innovations in stretchable electronics, haptic feedback systems, and large-area 2D semiconductor devices. He has developed laser-assisted fabrication techniques and MoS₂-based biosensors for healthcare and optoelectronic applications, fostering sustainable and low-power device technologies. A recipient of the Korean President’s Young Scientist Award and the Scientist of the Month Award by the National Research Foundation of Korea, he has earned national recognition for his research excellence. His academic leadership extends to editorial board service, peer reviewing for top-tier journals, and conference chairing in nanotechnology and materials science forums. Prof. Dr. Sunkook Kim’s laboratory at Sungkyunkwan University is a hub of interdisciplinary collaboration, supported by multiple national and industrial funding projects, advancing Korea’s competitiveness in nanomaterials research and flexible electronics. His continuing innovations are redefining frontiers in next-generation semiconductors, photonic devices, and intelligent sensing systems.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Sci Profiles | IEEE Xplore

Featured Publications

1. Kim, S., Konar, A., Hwang, W. S., Lee, J. H., Lee, J., Yang, J., Jung, C., Kim, H., … (2012). High-mobility and low-power thin-film transistors based on multilayer MoS₂ crystals. Nature Communications, 3(1), 1011.

2. Choi, W., Cho, M. Y., Konar, A., Lee, J. H., Cha, G. B., Hong, S. C., Kim, S., Kim, J., … (2012). High‐detectivity multilayer MoS₂ phototransistors with spectral response from ultraviolet to infrared. Advanced Materials, 24(43), 5832–5836.

3. Liu, N., Kim, P., Kim, J. H., Ye, J. H., Kim, S., & Lee, C. J. (2014). Large-area atomically thin MoS₂ nanosheets prepared using electrochemical exfoliation. ACS Nano, 8(7), 6902–6910.

4. Kim, S., Kwon, H. J., Lee, S., Shim, H., Chun, Y., Choi, W., Kwack, J., Han, D., … (2011). Low-power flexible organic light-emitting diode display device. Advanced Materials, 23(31), 3511–3516.

5. Lee, J., Dak, P., Lee, Y., Park, H., Choi, W., Alam, M. A., & Kim, S. (2014). Two-dimensional layered MoS₂ biosensors enable highly sensitive detection of biomolecules. Scientific Reports, 4(1), 7352.

 

Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

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Dr. Henryk Wojtaszek | Nanomaterials for Energy | Best Researcher Award

Research Science | University College of Professional Education in Wroclaw | Poland

Dr. Henryk Wojtaszek is an accomplished research scientist from the University College of Professional Education in Wroclaw, Poland, recognized for his scholarly contributions in economics, management, innovation, and renewable energy policy. His research integrates sustainable economic development with strategic management frameworks and energy transition models, contributing significantly to the understanding of low-carbon transformation and industrial innovation. Dr. Henryk Wojtaszek has authored and co-authored over 20 scientific publications indexed in Scopus and Google Scholar, with more than 464 citations and an h-index of 13. His works are featured in leading journals such as Energies, Sustainability, European Research Studies Journal, and the Scientific Papers of Silesian University of Technology. Notable publications include studies on “Barriers to Innovation in Manufacturing SMEs,” “Energy Transition 2024–2025,” and “Hydrogen Energy as a Catalyst for Sustainable Development,” emphasizing green transformation, innovation strategy, and comparative energy policies in Europe. His research areas span renewable-energy economics, sustainable management, innovation systems, industry 4.0 strategies, and cross-border policy analysis between Poland and Germany. Dr. Henryk Wojtaszek has contributed to multiple international and interdisciplinary projects focusing on energy transition, hydrogen economy, and education-management integration. His findings have guided decision-making for enterprises and policymakers addressing socio-economic and environmental sustainability. Dr. Henryk Wojtaszek’s scholarly achievements are complemented by active participation in research evaluation, editorial review, and international scientific collaborations. His recognition in the academic community reflects his commitment to advancing research on innovation-driven economic growth, renewable-energy policy, and sustainable development practices in Europe and beyond.

Profiles: Scopus | ORCID | Google Scholar | Research Gate | Sci Profiles | Academia

Featured Publications

1. Wojtaszek, H., & Miciuła, I. (2019). Analysis of factors giving the opportunity for implementation of innovations on the example of manufacturing enterprises in the Silesian province. Sustainability, 11(20), 5850.

2. Wojtaszek, H. (2016). Selected aspects of innovative motivation. World Scientific News, 44, 37–45.

3. Miciuła, I., Wojtaszek, H., Bazan, M., Janiczek, T., Włodarczyk, B., Kabus, J., & others. (2020). Management of the energy mix and emissivity of individual economies in the European Union as a challenge of the modern world climate. Energies, 13(19), 5191.

4. Jałowiec, T., Wojtaszek, H., & Miciuła, I. (2022). Analysis of the potential management of the low-carbon energy transformation by 2050. Energies, 15(7), 2351.

5. Kuzminski, L., Jałowiec, T., Masloch, P., Wojtaszek, H., & Miciuła, I. (2020). Analysis of factors influencing the competitiveness of manufacturing companies. University of Piraeus: International Strategic Management Association Conference Proceedings, 25–34.

Jianwei Chen | Nanophotonics and Nanoelectronics | Best Researcher Award

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Dr. Jianwei Chen | Nanophotonics and Nanoelectronics | Best Researcher Award

Lecturer | Zhejiang Ocean University | China

Dr. Jianwei Chen is a dedicated researcher and lecturer at Zhejiang Ocean University, China, whose work focuses on the development of micro- and nanostructured electronic and photonic devices based on van der Waals (vdW) two-dimensional materials. His research contributes to the advancement of terahertz focal plane array devices and the engineering of high-performance heterostructures for next-generation optoelectronic technologies. With 123 citations, 9 publications, and an h-index of 6, Dr. Jianwei Chen has made impactful contributions to materials science and applied physics. His recent works published in reputed journals such as Materials Today Physics and ACS Applied Materials & Interfaces explore the design, modulation, and optimization of vdW 2D material interfaces and heterostructures, establishing a foundation for their practical use in terahertz imaging and advanced photonics. Earlier in his career, his studies on calcium alumino-titanate and bauxite–SiC composites significantly contributed to the understanding of microstructural control and mechanical performance in ceramic refractories. Dr. Jianwei Chen’s ongoing research integrates electronic engineering, material science, and device physics, emphasizing innovative interface engineering and controlled synthesis of high-quality bubble-free conducting vdW heterostructures. His contributions are recognized through distinctions such as the Outstanding Master’s Thesis Award by the China Society of Metallurgical Education (2020). He actively participates in research collaborations and academic dissemination, promoting advancements in nano-optoelectronics and 2D materials-based device fabrication. His scholarly output reflects a commitment to bridging fundamental research with functional device applications, particularly in terahertz imaging and nanophotonics, aligning with global trends in advanced material innovation and device miniaturization.

Profiles: Scopus | ORCID

Featured Publications

  • Chen, J., Guo, Y., Su, Y., et al. (2025). Interface interaction, design, modulation, and optimization of van der Waals two-dimensional materials. Materials Today Physics, 58, 101878.

  • Chen, J., Liu, L., Chen, H., et al. (2024). Controlled preparation of high-quality bubble-free and uniform conducting interfaces of vertical van der Waals heterostructures of arrays. ACS Applied Materials & Interfaces, 16, 10877–10885.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Effect of partial substitution of calcium alumino-titanate for bauxite on the microstructure and properties of bauxite-SiC composite refractories. Ceramics International, 44, 2934–2940.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Effect of the calcium alumino-titanate particle size on the microstructure and properties of bauxite-SiC composite refractories. Ceramics International, 44, 6564–6572.

  • Chen, J., Zhao, H., Zhang, H., et al. (2018). Sintering and microstructure characterization of calcium alumino-titanate-bauxite-SiC composite refractories. Ceramics International, 44, 10934–10939.

 

Assoc. Prof. Dr. Ali Kazempour | Nanotechnology | Best Researcher Award

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Assoc. Prof. Dr. Ali Kazempour | Nanotechnology | Best Researcher Award

Assoc. Prof. Dr. Ali Kazempour, Payame Noor University, Iran

Dr. Ali Kazempour 🎓 is an Associate Professor at the Physics Department of Payame Noor University, Tehran, Iran 🇮🇷. He also serves as the Director of the Nanostructured Coatings Institute 🧪. With a Ph.D. in Physics from Isfahan University of Technology, his research bridges theoretical physics and nanotechnology 🔬. Specializing in first-principles simulations, nonlinear optics, and quantum computations ⚛️, he actively contributes to advancing material science. Through international collaborations 🌍 and active seminar participation, he continues to make significant strides in semiconductor physics, ultrafast dynamics, and defect analysis in nanostructures 💡.

Professional Profile:

Scopus

🏅 Suitability Summary

Dr. Ali Kazempour stands out as a distinguished researcher whose work seamlessly connects theoretical physics, nanotechnology, and computational materials science. His diverse academic background and leadership role as Director of the Nanostructured Coatings Institute reinforce his stature as a leading figure in his field. His research addresses critical areas such as ultrafast dynamics, defect analysis, and quantum computations, which are central to many next-generation technologies.

🔹 Education & Experience 

🎓 Ph.D. in Physics (2005–2011)

  • Isfahan University of Technology

  • Thesis: First-principles study of charged oxygen vacancies in Rutile TiO₂ & structural stability of MnAs nanowires

🎓 M.Sc. in Physics (2003–2005)

  • Isfahan University of Technology

  • Thesis: Wavelet Transform Modulus Maxima analysis of Interbeat Interval Time Series

🎓 B.Sc. in Physics (1999–2003)

  • Isfahan University of Technology

👨‍🏫 Current Position:

  • Associate Professor, Physics Department, Payame Noor University

  • Director, Nanostructured Coatings Institute, PNU

🌏 Scientific Visits:

  • Ulsan National Institute of Science and Technology, South Korea 🇰🇷

  • Fritz Haber Institute, Max Planck Society, Berlin 🇩🇪

🔹 Professional Development 

Dr. Kazempour’s professional growth is deeply rooted in a strong commitment to continuous learning and global engagement 🌐. He has participated in more than ten national and international workshops, including those organized by ICTP in Italy 🇮🇹 and Humboldt-Kolleg 🇩🇪, focusing on advanced computational methods, quantum optics, and density functional theory 🖥️📊. His scientific visits to Germany and South Korea have enriched his collaborative outlook and expanded his research frontiers 🤝. He’s also actively involved in organizing and attending seminars, gaining hands-on experience with high-performance computing and cutting-edge simulation tools ⚙️🧬.

🔹 Research Focus Area 

Dr. Kazempour’s research lies at the intersection of computational physics and nanotechnology 🔍🧪. He utilizes first-principles many-body calculations to explore electron-phonon coupling, ultrafast excitation dynamics, and quasiparticle lifetimes in nanostructures ⚛️. His work extends to investigating nonlinear optical phenomena using TD-DFT, and analyzing the effects of point and topological defects in wide bandgap semiconductors 💡🔦. Additionally, he explores strong laser-matter interactions and quantum optimal control theory in relation to quantum computation 💻🌀. His focus on fundamental and applied physics enables advancements in semiconductor design, optoelectronics, and quantum materials 🚀📡.

🔹 Awards & Honors 

🏆 Director of Nanostructured Coatings Institute, Payame Noor University
📜 Invited scientific visits to renowned institutions:

  • Fritz Haber Institute, Max Planck Society 🇩🇪

  • Ulsan National Institute of Science and Technology 🇰🇷
    🎤 Multiple international seminar participations, including ICTP and Humboldt-Kolleg
    🌟 Recognition for contributions to ultrafast dynamics and nanostructure simulation

Publication Top Notes:

1. Resonant electron–phonon coupled responses to single-shot driver: Ab initio TDDFT study of diamond

Authors: Ali Kazempour, Noejung Park
Journal: Physica B: Condensed Matter, 2025
Type: Open Access
Citations: 0
Summary:
This study employs time-dependent density functional theory (TDDFT) to investigate the resonant coupling between electrons and phonons in diamond when subjected to a single-shot laser driver. The work reveals how ultra-fast pulses influence charge density modulation and phononic excitations at femtosecond timescales, contributing to the understanding of non-equilibrium dynamics in wide bandgap materials.

2. Driven charge density modulation by spin density wave and their coexistence interplay in SmFeAsO: A first-principles study

Authors: Toktam Morshedloo, Ali Kazempour, Hamideh Shakeripour, S. Javad Hashemifar, Mojtaba Alaei
Journal: Physica B: Condensed Matter, 2024
Citations: 1
Summary:
Using density functional theory (DFT), this article explores the complex interplay between charge density waves (CDW) and spin density waves (SDW) in the iron-based superconductor SmFeAsO. The results indicate a mutual coexistence mechanism that influences the electronic structure and could play a role in the emergence of superconductivity, offering insights into magnetic and electronic modulations in high-temperature superconductors.

3. Study of optical absorption cross-section spectra and high-order harmonic generation of thymine, thymine glycol, and thymine dimer molecules

Authors: Fatemeh Mohammadtabar, Reza Rajaie Khorasani, Hossein Mohammadi-Manesh, Ali Kazempour
Journal: Journal of Molecular Modeling, 2022
Citations: 1
Summary:
This work investigates the nonlinear optical properties of thymine and its oxidized derivatives using computational modeling. The focus is on high-order harmonic generation (HHG) and optical absorption cross-sections under intense laser fields. The study contributes to the understanding of DNA damage and repair mechanisms and how molecular changes influence the nonlinear optical response in biomolecules.

Conclusion

  • Strengths: Exceptional expertise in computational physics, quantum materials, and nanostructures; proactive engagement in international scientific communities; proven leadership in research development.

 

 

Antônio zancanella | material science | Best Researcher Award

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Prof. Antônio zancanella | material science | Best Researcher Award

Professor at Instituto Federal do Espírito Santo, Vitoria, Brazil.

Short Biography📜

Antonio Carlos Barbosa Zancanella 🎓 is a Brazilian mechanical engineer specializing in energy conversion and material science. He holds a Master’s in Mechanical Engineering from Universidade Federal de Santa Catarina (2016), where he focused on ocean wave energy converters. His expertise spans thermomechanical treatments, computational fluid dynamics, and automation systems. Currently, he is affiliated with Universidade Federal de Ouro Preto and Instituto Federal do Espírito Santo. Zancanella has published extensively in prestigious journals, contributing to advancements in internal combustion engine performance, air heating flow analysis, and material selection for automotive applications. His work bridges theoretical research and industrial applications. 🔬⚙️

Professional Profile:

Scopus Profile

Education & Experience 🎓📌

  • Master’s in Mechanical Engineering – Universidade Federal de Santa Catarina (2016) 🎓
    • Focus: Ocean wave energy converters 🌊⚙️
  • Mechanical Engineering Degree – Universidade Federal do Espírito Santo (2019) 🎓
  • Engineering Degree – Universidade Federal de Ouro Preto (2014) 🎓
    • Research: Fatigue crack growth in API 5L X42 steel 🏗️🔬
  • Current Affiliations:
    • Universidade Federal de Ouro Preto 🏛️
    • Instituto Federal do Espírito Santo 🏫

Professional Development (100 Words) 📚🚀

Antonio Carlos Barbosa Zancanella continuously enhances his expertise through research and practical applications. His work integrates computational fluid dynamics, thermomechanical treatments, and automation systems to optimize engineering processes. As a researcher, he explores innovative materials and energy-efficient solutions for industrial applications. Zancanella actively collaborates with academic and industry professionals, contributing to technological advancements in mechanical engineering. His participation in international conferences and scientific publications underscores his commitment to innovation. With a passion for sustainable energy and material durability, he mentors students and professionals, shaping the future of mechanical engineering with cutting-edge research and applied engineering solutions. 🔬⚡

Research Focus (100 Words) 🔍🔧

Zancanella’s research revolves around energy conversion, thermomechanical treatments, and computational fluid dynamics. His studies in ocean wave energy converters 🌊⚡, internal combustion engine performance 🚗💨, and air heating flow analysis 🌬️🔥 contribute to energy-efficient designs. He also specializes in material science 🏗️🔬, investigating fatigue crack growth and material selection for automotive applications. His interdisciplinary approach integrates automation systems 🤖⚙️ with industrial processes, improving efficiency and sustainability. His work bridges the gap between theoretical research and practical applications, contributing to innovations in renewable energy, mechanical systems, and advanced materials.

Awards & Honors 🏆🎖️

  • Best Research Award 🏅 – Universidade Federal de Ouro Preto
  • Academic Excellence Award 🎓 – Universidade Federal de Santa Catarina
  • Top Mechanical Engineer Recognition ⚙️ – Instituto Federal do Espírito Santo
  • Published in High-Impact Journals 📚 – Recognized for significant contributions in energy and material science
  • Industry Collaboration Award 🤝 – For bridging academia and industry through innovative solutions

Publication Top Notes

Authors: W.S. Manhães, L.R.R. da Silva, A.C.B. Zancanella, R. Maziero, J.C. Campos-Rubio
Citations: 1
Year: 2022

SUSAM BORAL | Computational Nanotechnology | Best Researcher Award

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Dr. SUSAM BORAL | Computational Nanotechnology | Best Researcher Award

Research Fellow at Trinity College Dublin, Ireland.

📌 Dr. Susam Boral is a Research Fellow at Trinity College Dublin, specializing in mathematical modeling, wave interactions, and hydroelasticity. He earned his Ph.D. in Hydroelasticity from IIT Kharagpur (2022) and has held research positions at Harbin Engineering University and IIT Kharagpur. His expertise includes two-point boundary value problems, dissipative nonlinear Schrödinger equations, and potential flow analysis. Dr. Boral has organized international workshops, collaborated with esteemed institutions like Cambridge University and the University of Newcastle, and published extensively in high-impact journals.

Professional Profile:

Google Scholar

Education 🎓

  • 📍 Executive PG Certification in Data Science & AIIIT Roorkee & Intellipaat (2024–Present)
  • 📍 Ph.D. in HydroelasticityIIT Kharagpur (2022)
  • 📍 M.Sc. in Applied MathematicsUniversity of Calcutta (2018)
  • 📍 B.Sc. in Mathematics (Hons.)University of Calcutta (2016)

Experience 🏆

  • 🔬 Research Fellow, Trinity College Dublin, Ireland (Nov 2024 – Present)
  • 🏗️ Postdoctoral Fellow, Harbin Engineering University, China (June 2023 – Oct 2024)
  • 🔍 Research Associate, IIT Kharagpur, India (March 2023)

Professional Development & Achievements 📚

  • 🏅 CSIR Senior Research Fellowship, India (2020–2022)
  • 🏅 CSIR Junior Research Fellowship, India (2018–2020)
  • 🏆 First Rank in M.Sc. & B.Sc. Mathematics, University of Calcutta
  • 🌍 Visiting Researcher, Isaac Newton Institute, Cambridge University (2023)
  • 🌏 SPARC Visiting Scholar, University of Newcastle, Australia (2020)
  • 🎓 Workshop Organizer, International Workshop on Mathematics of Sea Ice and Ice Sheets (MOSSI) (2023–2024)

Publication Top Notes

📖 The role of viscoelastic foundation on flexural gravity wave blocking in shallow water –📑 16 citations | 📅 2021

🌊 Bragg scattering of long flexural gravity waves by an array of submerged trenches and the analysis of blocking dynamics –  📑 15 citations | 📅 2021

🧊 Bragg scattering of flexural-gravity waves by a series of polynyas in the context of blocking dynamics – 📑 12 citations | 📅 2023

🌊 Time-dependent flexural gravity wave scattering due to uneven bottom in the paradigm of blocking dynamics – 📑 9 citations | 📅 2023

🔍 Gravity wave interaction with an articulated submerged plate resting on a Winkler foundation – 📑 9 citations | 📅 2022

Dinesh Kumar | Nanobiotechnology | Global Nanotech Impact Award

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Assist. Prof. Dr. Dinesh Kumar | Nanobiotechnology | Global Nanotech Impact Award

Assistant Professor (Nano Science and Nano Technology), at Department of Interdisciplinary Sciences, National Institute of Food Technology Entrepreneurship and Management, Kundli, India.

Dr. Dinesh Kumar is a distinguished scientist with over 15 years of experience in the healthcare and biomedical research industry. His expertise spans various domains, including in-vitro diagnostics, food safety, molecular diagnostics, and quality control. He has made significant contributions to the development of rapid point-of-care diagnostic devices, biosensors, and immunoassays for infectious and non-communicable diseases. Dr. Kumar has a strong background in human research studies, epidemiology, biostatistics, and regulatory policies. He has been actively involved in accreditation processes for ISO 17025, ISO 15189, and ISO 13485 standards. His technical proficiency extends to software tools such as SPSS, Prism GraphPad, ChemDraw, and Sigma Plot, which he uses for data analysis and research. His work has been widely recognized, with multiple scientific publications, conference presentations, and collaborations with international regulatory bodies for CE marking and quality assurance. Passionate about innovation in healthcare, he has developed microfluidic test devices and IVD-grade recombinant proteins and antibodies. His research has significantly contributed to advancements in diagnostics, particularly in tuberculosis, antimicrobial resistance, and biomarker detection. Dr. Kumar continues to drive excellence in biomedical research through his technical expertise, innovative mindset, and dedication to improving global healthcare standards.

Professional Profile:

Education

Dr. Dinesh Kumar holds a Ph.D. in Biomedical Sciences from the prestigious Indian Institute of Technology (IIT) Delhi, where his doctoral research focused on developing immunoassays for detecting prednisolone using horseradish peroxidase and colloidal gold as labels. His research provided valuable insights into rapid, specific, and user-friendly diagnostic techniques. He also completed a Master of Science (M.Sc.) in Biochemistry from V M University, where he built a strong foundation in biochemical analysis and laboratory research. His undergraduate education includes a Bachelor of Science (B.Sc.) in Medical Laboratory Technology from V M University, equipping him with essential laboratory and clinical skills. Additionally, Dr. Kumar earned a Diploma in Medical Laboratory Technology (DMLT) from the Para Medical Board of India, further strengthening his expertise in clinical diagnostics. To expand his knowledge in food safety and quality management, he pursued a Postgraduate Diploma in Food Safety & Quality Management (PGDFSQM) from IGNOU, New Delhi. His multidisciplinary academic background has enabled him to integrate various scientific approaches into his research, particularly in molecular diagnostics and immunology. His educational journey reflects his commitment to continuous learning and his ability to bridge the gap between fundamental research and real-world healthcare applications.

Professional Experience

Dr. Dinesh Kumar has amassed extensive experience across multiple dimensions of the healthcare industry, including diagnostics research, quality control, and regulatory compliance. He has worked on mass-scale production and testing of in-vitro diagnostic (IVD) rapid kits, biochemistry kits, and RT-PCR molecular diagnostic kits. His expertise in diagnostics has played a crucial role in the development of innovative point-of-care testing devices. He has also provided technical support for product development in molecular diagnostics, biochemistry, and immunoassays, offering consultancy services to various healthcare organizations and government facilities. His experience in accreditation processes for ISO 17025 and ISO 15189 highlights his role in ensuring high-quality standards in laboratory testing. Dr. Kumar has also been actively involved in project preparation and implementation for government health facilities, focusing on improving diagnostic capabilities in healthcare institutions. His professional journey is marked by collaborations with international regulatory bodies, including those responsible for CE marking and ISO compliance. With a strong background in biostatistics and epidemiology, he has contributed significantly to the research and development of diagnostic tools for infectious diseases, antimicrobial resistance, and biomarkers for conditions such as cancer, cardiovascular diseases, and nephrology. His technical and managerial expertise makes him a leader in biomedical innovation.

Research Interests

Dr. Dinesh Kumar’s research interests lie at the intersection of biomedical diagnostics, molecular biology, and nanotechnology. He is particularly passionate about the development of rapid and cost-effective point-of-care diagnostic devices for communicable and non-communicable diseases. His work focuses on immunoassays, biosensors, microfluidic test devices, and molecular diagnostics, particularly RT-PCR technology for infectious disease detection. He has a keen interest in antimicrobial resistance research, aiming to develop diagnostic solutions that enable early detection and effective treatment of resistant infections. His expertise extends to the study of biomarkers for chronic diseases, including cancer, cardiovascular diseases, and nephrology. Additionally, Dr. Kumar has been actively involved in quality assurance and regulatory compliance for medical diagnostics, ensuring that innovations meet international standards for safety and efficacy. His research also encompasses bioinformatics and computational biology, utilizing advanced statistical and data analysis techniques to enhance diagnostic accuracy. His interest in nanotechnology is reflected in his work on biosensors and microfluidic platforms, which have the potential to revolutionize healthcare diagnostics. By integrating biotechnology, immunology, and analytical chemistry, Dr. Kumar strives to bridge the gap between research and clinical application, making diagnostic technologies more accessible and efficient for global healthcare systems.

Research Skills

Dr. Dinesh Kumar possesses a diverse range of research skills that make him a valuable asset in biomedical and healthcare research. He has expertise in immunoassay development, including enzyme-linked immunosorbent assay (ELISA) and lateral flow immunoassay (LFIA), which are crucial for rapid diagnostics. His technical skills in molecular diagnostics include RT-PCR, real-time PCR, and nucleic acid amplification techniques, making him proficient in detecting infectious diseases at the molecular level. He has extensive experience in biosensor technology, microfluidics, and point-of-care testing, particularly for tuberculosis, antimicrobial resistance, and biomarker detection. Dr. Kumar is also skilled in biostatistics and epidemiological data analysis, using software such as SPSS, Prism GraphPad, ChemDraw, and Sigma Plot. His background in quality control and regulatory compliance enables him to ensure the accuracy and reliability of diagnostic products. He is proficient in Good Laboratory Practices (GLP), Standard Operating Procedures (SOP) development, and accreditation processes for ISO 17025 and ISO 15189. Additionally, he has expertise in protein chemistry, including the development of IVD-grade recombinant proteins and monoclonal and polyclonal antibodies. His ability to integrate biotechnology with analytical techniques and computational tools makes him a well-rounded researcher dedicated to advancing biomedical science and healthcare solutions.

Awards and Honors

Dr. Dinesh Kumar has been recognized for his contributions to biomedical research and diagnostics through various awards and honors. He has received accolades for his innovative research in point-of-care diagnostics, including best oral presentation awards at international conferences. His contributions to immunoassay development and biosensor technology have earned him recognition from scientific communities and regulatory organizations. His expertise in molecular diagnostics and antimicrobial resistance has also been acknowledged through invitations to speak at prestigious global conferences. Dr. Kumar has played a key role in obtaining CE marking and ISO accreditation for various diagnostic products, demonstrating his impact on regulatory and quality assurance standards. His commitment to research excellence has been reflected in numerous publications in high-impact scientific journals. Additionally, his mentorship and training programs in diagnostics and quality control have contributed to capacity building in the healthcare sector. As a result, he has established himself as a leading expert in biomedical innovation, with a track record of excellence in research, development, and regulatory compliance. His awards and recognitions highlight his dedication to improving healthcare through cutting-edge diagnostic technologies and scientific advancements.

Conclusion

Dr. Dinesh Kumar is a highly accomplished scientist whose research has significantly advanced the field of biomedical diagnostics. His expertise in immunoassays, biosensors, and molecular diagnostics has led to the development of innovative point-of-care testing devices that address critical healthcare challenges. His extensive experience in regulatory compliance and quality control has ensured that his innovations meet international standards, making a tangible impact on the healthcare industry. His strong academic background, technical proficiency, and research skills have positioned him as a leader in diagnostic development. Dr. Kumar’s contributions to antimicrobial resistance research and biomarker detection highlight his commitment to improving early disease diagnosis and treatment outcomes. His work in nanotechnology applications, particularly in biosensor development, further enhances his eligibility for prestigious research awards. Through his dedication to innovation and excellence, Dr. Kumar continues to shape the future of biomedical research, bridging the gap between scientific discovery and clinical application to improve global healthcare.

Publication Top Notes

  • TG Shrivastav, SK Chaube, KP Kariya, PKV Prasad, D Kumar – 14 citations (2013)
  • TG Shrivastav, SK Chaube, KP Kariya, R Singh, D Kumar, D Pandit, … – 11 citations (2011)
  • TG Shrivastav, SK Chaube, PKV Prasad, KP Kariya, D Kumar – 10 citations (2012)
  • TG Shrivastav, SK Chaube, KP Kariya, S Bhanot, R Singh, D Kumar – 10 citations (2010)
  • TG Shrivastav, SK Chaube, KP Kariya, R Singh, D Kumar, P Jain, … – 9 citations (2012)
  • D Kumar, H Singh, TG Shrivastav – 8 citations (2018)
  • TG Shrivastav, SK Chaube, KP Kariya, P Kumari, R Singh, D Kumar – 8 citations (2011)
  • TG Shrivastav, KP Kariya, PKV Prasad, SK Chaube, D Kumar – 7 citations (2014)
  • TG Shrivastav, SK Chaube, KP Kariya, D Kumar, R Singh – 5 citations (2011)

 

Dr. Manuel Luna | Nanomaterials | Best Researcher Award

Published on by Nano Technology

Dr. Manuel Luna | Nanomaterials | Best Researcher Award

Dr. Manuel Luna, University of Cadiz, Spain

Dr. Manuel Luna is a postdoctoral researcher at the University of Cádiz, specializing in nanomaterials and photocatalysis. He earned his PhD in Nanoscience and Material Technologies in 2019, receiving the Extraordinary Doctoral Award 🏆. His research focuses on developing Au/TiO₂/SiO₂ photocatalysts for self-cleaning and depolluting applications in construction materials 🏗️. He has contributed to six research projects, including the prestigious H2020 InnovaConcrete project. Dr. Luna has authored 22 indexed publications 📚, three patents, and collaborated with global industry leaders like Sika and TINO. His work bridges fundamental research and industrial application, advancing sustainable material technologies 🌍.

Professional Profile:

Scopus

Orcid

Suitability for Best Researcher Award 🏆

Dr. Manuel Luna is an outstanding candidate for a Best Researcher Award due to his exceptional contributions to nanomaterials and photocatalysis. His research bridges fundamental science and real-world applications, particularly in sustainable and self-cleaning materials. With a track record of high-impact publications, patents, and industrial collaborations, he exemplifies innovation and academic excellence.

Education & Experience 🎓💼

Education 📚

  • PhD in Nanoscience and Material Technologies, University of Cádiz, Spain (2019) 🎓
    • Extraordinary Doctoral Award 🏆
  • Master in Nanoscience and Material Technologies, University of Cádiz, Spain (2014) 🏅
    • Extraordinary Master’s Degree Award
  • Bachelor in Chemistry, University of Cádiz, Spain (2012) 🧪
    • Bachelor’s Degree Extraordinary Award

Experience 🏢

  • Postdoctoral Fellow, University of Cádiz (2022 – Present) 🔬
  • Postdoctoral Research Associate, University of Cádiz (2020 – 2021) 📊
  • Research Assistant, University of Cádiz (2015 – 2019) 🏗️

Professional Development 🚀

Dr. Manuel Luna has built an impressive career in nanomaterials and photocatalysis. As part of the TEP243-Nanomaterials research group since 2013, he has led research on self-cleaning and depolluting materials 🌱. His expertise spans six major projects, including the €7M H2020 InnovaConcrete project, the largest in UCA history 🌍. He has authored 22 high-impact papers 📖, including a review in Nature Reviews Materials (IF 83.5). His work extends beyond academia, collaborating with industry giants like Sika, TINO, and Cosentino. With three patents 🏅, international research stays, and extensive teaching, he is shaping the future of sustainable materials.

Research Focus 🔬🏗️

Dr. Luna’s research centers on photocatalytic materials for sustainable applications. His work on Au/TiO₂/SiO₂ photocatalysts enhances self-cleaning and depolluting coatings, making buildings more eco-friendly 🌍. As a key researcher in the TEP243-Nanomaterials group, he has contributed to groundbreaking innovations in construction materials and environmental remediation 🌱. His involvement in European (H2020), national, and industry projects ensures his research has real-world impact. With international collaborations 🌎, he has developed materials that improve air and surface quality. His patents and industry contracts demonstrate his commitment to transforming nanoscience into commercial solutions 💡.

Awards & Honors 🏆🎖️

  • Extraordinary Doctoral Award (PhD, 2019) 🎓🏅
  • Extraordinary Master’s Degree Award (2014) 🏆
  • Bachelor’s Degree Extraordinary Award (2012) 🏅
  • H2020 InnovaConcrete Project Contributor (€7M funding) 🌍🔬
  • Nature Reviews Materials Review Publication (IF 83.5) 📖
  • Cover Article in Chemical Engineering Journal (2019, IF 10.65) 🎨
  • Three Patents (Two in commercialization) 🏗️💡
  • Research Contracts with Sika, TINO, and Cosentino (€200,000 contract with Sika) 💰

Publication Top Notes:

  • 🏗️ “Water-soluble fluorosilane supplemented with fumed silica as admixture for producing hydrophobic concrete: Effects on cement hydration, mechanical properties and water protection properties” (2024) – 5 citations.
  • 🏛️ “Validation of alkoxysilane-based protective treatments for increasing service life of cementitious materials under different weathering conditions” (2023) – 4 citations.
  • 🌞 “Strong Metal-Support Interaction (SMSI) in Au/TiO2 photocatalysts for environmental remediation applications: Effectiveness enhancement and side effects” (2023) – 14 citations.
  • 🏭 “Influence of gold nanoparticles size for photocatalytic NO oxidation in low loading Au/TiO2 catalysts” (2023) – 8 citations.
  • 🧱 “Studying the bulk hydrophobization of cement mortars by the combination of alkylalkoxysilane admixture and fluoropolymer-functionalized aggregate” (2023) – 7 citations.