Xiaowei Xu | Synthesis and Self Assembly of Nanomaterials | Research Excellence Award

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Assoc. Prof. Dr. Xiaowei Xu | Synthesis and Self Assembly of Nanomaterials | Research Excellence Award

Professsor | China Pharmaceutical University | China

Assoc. Prof. Dr. Xiaowei Xu is an accomplished researcher in chemical biology and medicinal chemistry, with a strong publication record reflected by over 1,011 citations, an h-index of 20, and an i10-index of 28 on Google Scholar. His research primarily focuses on medicinal chemistry–driven target discovery, protein–protein interaction modulators, and chemical biology approaches, particularly the design of advanced fluorescent and photoaffinity probes for biomolecular detection and live-cell imaging. He has made significant contributions to analytical chemistry, bioorganic chemistry, and molecular probe innovation, with high-impact journal publications addressing receptor biology, metabolic disease targets, nucleic acid recognition, and bioimaging technologies. His work integrates probe design, mass spectrometry, and molecular interaction analysis, supporting translational research and drug discovery. Assoc. Prof. Dr. Xiaowei Xu has been involved in funded competitive research projects, R&D innovation, and interdisciplinary collaborations, and has contributed to the scientific community through peer review, editorial activities, and recognized scholarly output in reputed international journals.

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Featured Publications

FXR modulators for enterohepatic and metabolic diseases
Expert Opinion on Therapeutic Patents, 2018 | Ciations: 90

Recent advances in PROTACs for drug targeted protein research
International Journal of Molecular Sciences, 2022 | Ciations: 66

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.

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.

Amel Boudjemaa | Nanomaterials for Energy | Women Researcher Award

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Dr. Amel Boudjemaa | Nanomaterials for Energy | Women Researcher Award

Researcher, Center for Scientific and Technical Research in Physicochemical Analysis (CRAPC), Algeria

Dr. Amel Boudjemaa is a prolific Algerian researcher at the Centre de Recherche Scientifique et Technique en Analyses Physico-Chimiques (CRAPC), Bou Ismail, Algeria. Her scientific contributions lie primarily in photocatalysis, nanomaterials, surface chemistry, and environmental remediation. With a Scopus h-index of 20, 1,467 citations, and 90 peer-reviewed publications, her work has significantly influenced the fields of materials chemistry and sustainable environmental technologies. Her recent research focuses on the design and optimization of advanced nanostructured photocatalysts for water purification, pollutant degradation, and hydrogen generation under visible light. Notably, she has investigated heterojunction and doped oxide-based photocatalysts—such as Co₂SnO₄/Co₃O₄/SnO₂, ZnO–CuO–Al₂O₃, and Bi/Fe-doped aluminophosphates—demonstrating enhanced degradation efficiencies for pharmaceuticals and dyes like diclofenac, ibuprofen, and methyl orange. These studies integrate experimental synthesis, photochemical characterization, and mechanistic modeling to predict by-product toxicity and reaction kinetics, emphasizing both efficiency and environmental safety. Beyond photocatalysis, Dr. Amel Boudjemaa has explored hybrid and functional nanomaterials with applications in sensing, adsorption, and energy storage. Her works on platinum(IV)-carbon sphere hybrids and tin-based non-enzymatic sensors have expanded the potential of nanomaterials for electrochemical detection and clean energy technologies. Methodologically, her research combines advanced materials synthesis, surface modification, spectroscopic and electrochemical analysis, and computational prediction tools. Her interdisciplinary approach bridges materials science, environmental engineering, and green chemistry, contributing to cleaner production and pollution mitigation strategies. Overall, Dr. Amel Boudjemaa’s body of work demonstrates a consistent pursuit of innovative, sustainable solutions for environmental contaminants, positioning her among the leading North African researchers in applied photocatalysis and nanomaterial-based remediation.

Profile: Scopus | ORCID | Google Scholar | ResearcheGate | Loop | Web of Science | Linkedin

Featured Publications

Boumaza, S., Boudjemaa, A., Bouguelia, A., Bouarab, R., & Trari, M. (2010). Visible light induced hydrogen evolution on new hetero-system ZnFe₂O₄/SrTiO₃. Applied Energy, 87(7), 2230–2236.

Boudjemaa, A., Boumaza, S., Trari, M., Bouarab, R., & Bouguelia, A. (2009). Physical and photo-electrochemical characterizations of α-Fe₂O₃: Application for hydrogen production. International Journal of Hydrogen Energy, 34(10), 4268–4274.

Chezeau, B., Boudriche, L., Vial, C., & Boudjemaa, A. (2020). Treatment of dairy wastewater by electrocoagulation process: Advantages of combined iron/aluminum electrodes. Separation Science and Technology, 55(14), 2510–2527.

Boumaza, S., Boudjemaa, A., Omeiri, S., Bouarab, R., Bouguelia, A., & Trari, M. (2010). Physical and photoelectrochemical characterizations of hematite α-Fe₂O₃: Application to photocatalytic oxygen evolution. Solar Energy, 84(4), 715–721.

Boudjemaa, A., Bouarab, R., Saadi, S., Bouguelia, A., & Trari, M. (2009). Photoelectrochemical H₂-generation over spinel FeCr₂O₄ in X²⁻ solutions (X²⁻ = S²⁻ and SO₃²⁻). Applied Energy, 86(7–8), 1080–1086.

 

Yigang Chen | Nanomaterials | Best Researcher Award

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Dr. Yigang Chen | Nanomaterials | Best Researcher Award

Chief of Surgery at Jiangnan University | China

Dr. Yigang Chen is a distinguished biomedical researcher merging clinical medicine with cutting-edge materials science. He earned his Bachelor’s degree in Clinical Medicine from Nanjing University of Chinese Medicine, followed by a Master’s in Tumor Recurrence and Lymph Metastasis at Jiangsu University’s School of Medicine. He later completed a Ph.D. in Biodegradable Materials at Shanghai Jiao Tong University School of Medicine, and conducted postdoctoral research in gastric cancer at Nanjing Medical University. Dr. Chen has authored publications and holds numerous granted patents, including innovations like inflatable gastric tube traction devices and 3D-printed ostomy products. His work exemplifies a strong commitment to translating biomaterials research into therapeutic solutions for gastrointestinal tumors.

Professional Profile

Scopus Profile

Education

Dr. Yigang Chen holds a Doctoral degree in Biodegradable Materials from the School of Medicine at Shanghai Jiao Tong University, where research centered on the design and development of novel biomaterials. Prior to that, a Master’s in Tumor Recurrence and Lymph Metastasis was earned from Jiangsu University’s School of Medicine, focusing on oncology-related therapeutics. The academic journey began with a Bachelor’s in Clinical Medicine from Nanjing University of Chinese Medicine, which laid the foundational understanding of healthcare and medical sciences.

Experience

Dr. Yigang Chen brings a rich blend of clinical and materials science expertise to the field of biomedical innovation. The journey includes a postdoctoral tenure at Nanjing Medical University dedicated to basic research on gastric cancer, underpinned by earlier doctoral work in biodegradable materials at Shanghai Jiao Tong University. A master’s focus on tumor recurrence and lymphatic metastasis and a bachelor’s in Clinical Medicine from a traditional Chinese medicine university provided a strong clinical foundation. Across these roles, Dr. Chen has combined materials design including biodegradable biomaterials with oncological science, resulting in a portfolio of high-impact publications and patented medical technologies. This multidisciplinary and translational experience positions Dr. Chen at the forefront of cancer-focused biomaterials research.

Research Interests

Dr. Yigang Chen’s research bridges biodegradable materials and oncology, with a special focus on gastrointestinal tumor applications. The work centers on designing and synthesizing novel biodegradable biomaterials particularly those suitable for therapeutic delivery devices and implantable systems that interface with tumor biology for targeted treatment. This includes developing advanced polymeric and scaffold-based systems for effective drug delivery, enhancing biodegradation profiles to reduce side effects, and exploring photochemical and photocatalytic mechanisms for cancer remediation. The interdisciplinary approach spans materials science, biomedical engineering, and clinical oncology, reflecting a commitment to translating fundamental research into real-world therapeutic solutions.

Publications

Application of indocyanine green fluorescence angiography in laparoscopic sleeve gastrectomy: preliminary results

Comprehensive analysis of prognosis and drug sensitivity of programmed cell death pattern-related genes in gastric cancer patients

Guanidine grafted chitosan oligosaccharides polymers promoting GLUT-mediated gastrointestinal barrier transport for potentiating Fe3O4 mineralized probiotics in obesity treatment

Dual vacancies boost peroxymonosulfate activation over Bi2WO6 photocatalyst for antibiotic removal: Intermediates and mechanism

Simultaneous removal of Cr (VI) and norfloxacin over BiOBr nanosheet with regulated oxygen vacancies: Intermediates and toxicity evaluation

Conclusion

Dr. Yigang Chen’s scientific achievements, translational innovations, and strong patent portfolio position him as a highly competitive candidate for the Best Researcher Award. His ability to integrate fundamental research with practical applications in biomedicine reflects both depth of knowledge and societal impact, making him an outstanding example of research excellence worthy of recognition.

 

Dr. Byung-Wook Kim | Nanomaterials | Best Researcher Award

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Dr. Byung-Wook Kim | Nanomaterials | Best Researcher Award

Dr. Byung-Wook Kim, Columbia University, United States

Dr. Byung-Wook Kim is an Associate Research Scientist at Columbia University, specializing in nanomaterials, energy harvesting, and thermal management. With a Ph.D. in Materials Science & Engineering from UCSD 🎓, his work focuses on advanced materials for thermal and electrical applications. Previously, he was a Senior Research Engineer at Hyundai Motor Company 🚗, where he contributed to energy-efficient automotive materials. Dr. Kim has received prestigious awards 🏆 and has published extensively in high-impact journals. His collaborations with Columbia Nano Initiative and leading researchers drive advancements in radiative cooling, thermoelectrics, and polymer nanocomposites.

Professional Profile:

Orcid

Suitability of Dr. Byung-Wook Kim for the Best Researcher Award 🏆

Dr. Byung-Wook Kim is a leading researcher in nanomaterials, energy harvesting, and thermal management, making groundbreaking contributions to radiative cooling, thermoelectrics, and polymer nanocomposites. His expertise spans both academia and industry, with notable contributions at Columbia University and Hyundai Motor Company. His high-impact publications, prestigious awards, and pioneering research in sustainable energy solutions position him as a strong candidate for the Best Researcher Award.

Education & Experience 🎓👨‍🔬

  • Ph.D. in Materials Science & Engineering – University of California, San Diego (UCSD) 🏛️

  • M.S. in Applied Physics – University of California, San Diego (UCSD) ⚛️

  • B.S. in Physics – Hanyang University, Seoul 🇰🇷

  • Associate Research Scientist – Columbia University 🏢

  • Senior Research Engineer – Hyundai Motor Company 🚘

  • Postdoctoral Researcher – Advanced materials and energy systems 🔬

Professional Development 🚀

Dr. Byung-Wook Kim has been at the forefront of nanomaterials, energy storage, and thermoelectric technology. His expertise extends to radiative cooling, polymer composites, and photonic structures, enhancing energy efficiency across multiple sectors. At Columbia University, he collaborates with top researchers on breakthrough materials. His industrial experience at Hyundai Motor Company helped develop high-performance energy solutions for automotive applications. A dedicated researcher, Dr. Kim actively participates in Columbia Nano Initiative and energy research centers. With numerous high-impact publications and awards, he remains a key contributor to advancing sustainable and efficient energy technologies 🌍🔋.

Research Focus 🔬

Dr. Byung-Wook Kim’s research primarily revolves around nanomaterials, thermal management, and energy harvesting. His work explores carbon nanotube-polymer composites for enhanced electrical and thermal conductivity, as well as radiative cooling materials to improve energy efficiency ☀️❄️. He is also involved in developing thermoelectric materials that convert waste heat into usable energy ⚡. His contributions extend to photonic structures, advanced composites, and sustainable energy storage solutions. At Columbia University, he collaborates on next-generation energy systems, pushing the boundaries of nanotechnology and applied physics for real-world applications in clean energy and thermal regulation 🌱🔋.

Awards & Honors 🏆🎖️

  • 🏅 Nanoscale Horizons Outstanding Paper Award (2023) – Recognized for excellence in nanomaterials research
  • 🏆 Excellence in Advanced Technology (2019) – Hyundai Motor Company, for contributions to advanced energy-efficient materials
  • 📜 Multiple High-Impact Publications – Featured in Light: Science & Applications, Journal of Applied Physics, Nanomaterials
  • 🎓 Research Grants & Fellowships – Funding for cutting-edge energy and materials research
  • 🔬 Columbia Nano Initiative Affiliation – Recognized researcher in advanced materials and nanotechnology

Publication Top Notes:

  • 🏭 Abrasion Effect on Heating Performance of Carbon Nanotube/Epoxy Composites
  • 🌱 Bio-Based Phase Change Materials for Sustainable Development
  • 📏 Thermoelastic Modeling of Cubic Lattices from Granular Materials to Atomic Crystals
  • An Ag–Au-PANI Core–Shell Nanowire Network for Visible-to-Infrared Data Encryption and Supercapacitor Applications
  • ☀️ Photonic Structures in Radiative Cooling

 

Ms. Yossra Ounis Dkhil | Nanomaterials | Best Researcher Award

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Ms. Yossra Ounis Dkhil | Nanomaterials | Best Researcher Award

Ms. Yossra Ounis Dkhil, Faculty of Sciences of Gabes, University of Gabes, Tunisia

Yossra Ounis Dkhil, is a dedicated PhD candidate specializing in catalysis and nanomaterials for environmental applications. Currently affiliated with the Catalysis and Materials for the Environment and Processes Research Laboratory at the University of Gabes, Yossra has been a guest researcher at the Leibniz Institute for Catalysis (LIKAT) in Germany, where she explored ZnO nanomaterials for photocatalytic degradation of organic pollutants. With publications in renowned journals, she exemplifies excellence in green synthesis and advanced characterization techniques. Beyond her academic pursuits, Yossra enjoys reading, traveling, and gaming. 🌱📚🌍🎮

Professional Profile:

Orcid

Summary of Suitability for the Best Researcher Award

Yossra Ounis Dkhil stands as a strong candidate for the Best Researcher Award, given her outstanding contributions to catalysis and nanomaterials for environmental applications. Her interdisciplinary expertise, commitment to sustainability, and active engagement in both research and professional development distinguish her as a leader in her field.

Education and Experience 

🎓 Education

  • PhD (2021 – Present): Catalysis and Materials for Environment, University of Gabes
  • Master’s (2018 – 2020): Materials and Environmental Chemistry, University of Gabes, with honors
  • Bachelor’s (2014 – 2017): Chemistry, University of Gabes, with comprehensive training in analytical and organic chemistry

💼 Experience

  • Guest PhD Researcher (2023 – 2024): Leibniz Institute for Catalysis, Germany
  • Dental Assistant (2018): Gabes, Tunisia
  • Internships (2015 – 2018): Laboratory-based roles in medical analysis, quality control, and biological testing

Professional Development 

Yossra Ounis Dkhil actively participates in professional development activities to enhance her expertise in catalysis and nanomaterials. She attended international conferences such as the SPASEC-25 🌞 and 57th Jahrestreffen Deutscher Katalytiker 🔬. She has undertaken specialized training in Raman spectroscopy 🎥, ISO standards 📏, and photovoltaic systems ⚡. Yossra’s academic engagement extends to workshops on advanced oxidation technologies 🌊 and Springer training sessions 📚. These experiences have deepened her understanding of environmental challenges and strengthened her skills in green synthesis, photocatalysis, and material characterization, aligning her with global sustainability goals. 🌍🧪

Research Focus 

Yossra Ounis Dkhil focuses on the synthesis, characterization, and application of nanomaterials for environmental remediation 🌱. Her PhD research emphasizes green synthesis methods for ZnO nanoparticles, leveraging natural extracts like chia seeds 🌿 to achieve sustainable solutions. She investigates photocatalytic degradation mechanisms for pharmaceuticals and organic pollutants 🌊, aiming to mitigate their environmental impact. Additionally, Yossra explores advanced techniques such as X-ray diffraction and thermal analysis 🔬 to understand material properties. Her interdisciplinary approach bridges chemistry, environmental science, and nanotechnology, contributing to cleaner, greener technologies. 🌍🧪

Awards and Honors 

  • 🏆 2024: Presenter at the 57th Jahrestreffen Deutscher Katalytiker Conference
  • 🌞 2022: Participant in the SPASEC-25 and AOTs-26 International Conferences
  • 📚 2021: Recognition for excellence during Raman Spectroscopy training, University of Gabes
  • 🔬 2021: Participation in the International Colloquium on Arts, Sciences, and Technologies, Gabes
  • 🎓 2020: Honored for completing Springer and CABI doctoral training programs

Publication Top Notes:

Green Synthesis of Photocatalytically Active ZnO Nanoparticles Using Chia Seed Extract and Mechanistic Elucidation of the Photodegradation of Diclofenac and <i>p</i>-Nitrophenol
X-Ray Diffraction Analysis by Modified Scherrer, Williamson–Hall and Size–Strain Plot Methods of ZnO Nanocrystals Synthesized by Oxalate Route: A Potential Antimicrobial Candidate Against Foodborne Pathogens

 

Prof. Goo-Hwan Jeong | Nanomaterials Awards | Best Researcher Award

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Prof. Goo-Hwan Jeong | Nanomaterials Awards | Best Researcher Award

Prof. Goo-Hwan Jeong, Kangwon National University, South Korea

Goo-Hwan Jeong, Ph.D., is a tenured professor in the Department of Battery Convergence Engineering at Kangwon National University, Korea. He earned his B.E. and M.E. degrees in Metallurgical Engineering from Inha University, Korea, and completed his Ph.D. in Electronic Engineering at Tohoku University, Japan, where he was also awarded the Best Graduate Student Award. Dr. Jeong has held various prestigious positions, including research roles at NTT Basic Research Lab in Japan and Gothenburg University in Sweden, as well as a visiting professorship at Drexel University in the USA. His research focuses on the synthesis and functionalization of nanomaterials, plasma processes, and the development of advanced materials for lithium-ion batteries. He has received multiple awards, including the Best Paper Award from the Korean Society of Surface Science and Engineering in 2022.

Professional Profile:

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Summary of Suitability for the Award

Dr. Jeong is a highly suitable candidate for the Research for Best Researcher Award due to his significant contributions to the field of nanomaterials and battery convergence engineering. His academic and professional trajectory, beginning with a B.E. and M.E. in Metallurgical Engineering from Inha University and culminating in a Ph.D. in Electronic Engineering from Tohoku University, reflects his deep expertise in materials science and engineering. His interdisciplinary background is further enriched by postdoctoral research and professorial roles across globally recognized institutions.

🎓Education:

Goo-Hwan Jeong earned his Bachelor of Engineering (B.E.) in Metallurgical Engineering from Inha University, Korea, in 1997. He continued his studies at Inha University, obtaining a Master of Engineering (M.E.) in Metallurgical Engineering in 1999. Dr. Jeong then pursued his Ph.D. in Electronic Engineering at Tohoku University, Japan, completing it in 2003. His educational background laid the foundation for his expertise in nanomaterials and advanced materials research.

🏢Work Experience:

Goo-Hwan Jeong has held several significant academic and research positions throughout his career. From 2002 to 2004, he was a JSPS Research Fellow (DC2) at Tohoku University in Japan. He then served as a Research Associate at NTT Basic Research Lab, Japan, from 2004 to 2006. Between 2006 and 2008, he was a Postdoctoral Researcher in the Department of Physics at Gothenburg University, Sweden. Since 2008, Dr. Jeong has been a Professor in the Department of Battery Convergence Engineering at Kangwon National University, Korea. He also held a Visiting Professorship at Drexel Plasma Institute, Drexel University, USA, from 2016 to 2017.

🏅Awards and Honors:

Goo-Hwan Jeong has been recognized with several prestigious awards throughout his career. In 2003, he received the Best Graduate Student Award from the President of Tohoku University, Japan, and the 21 CEO Prize from the School of Electrical and Electronic Engineering at Tohoku University. More recently, in 2022, he was honored with the Best Paper Award by The Korean Society of Surface Science and Engineering. In 2023, Dr. Jeong was appointed Chair of the ‘Semiconductor & Thin Film Division’ within the Korean Vacuum Society, further highlighting his leadership in the field.

🔬Research Focus:

Dr. Jeong’s research centers on the synthesis and functionalization of nanomaterials, including C60, carbon nanotubes (CNT), graphene, and zinc oxide (ZnO). He is also involved in plasma processes and diagnostics, focusing on atmospheric pressure and microwave plasmas. His work contributes to developing highly efficient cathode and anode materials for lithium-ion batteries, cost-effective chemical vapor deposition (CVD) processes, and applications such as photo- and gas-sensors, thermal interface materials, and transparent conductive films.

Publication Top Notes:

1.One-Pot Fabrication of Nanocomposites Composed of Carbon Nanotubes and Alumina Powder Using a Rotatable Chemical Vapor Deposition System

2. Low-Power Complementary Inverter Based on Graphene/Carbon-Nanotube and Graphene/MoS₂ Barristors

3. Single-Walled Carbon Nanotube Synthesis Yield Variation in a Horizontal Chemical Vapor Deposition Reactor

4. Investigation of Early Stage of Carbon Nanotube Growth on Plasma-Pretreated Inconel Plates and Comparison with Other Superalloys as Substrates

 

 

Mr. Xiyang Li | Nanomaterials Award | Best Researcher Award

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Mr. Xiyang Li | Nanomaterials Award | Best Researcher Award

Mr. Xiyang Li , School of Materials Science and Engineering, Dalian University of Technology, China

Xiyang Li is a Ph.D. student at the School of Materials, Dalian University of Technology, specializing in nanocomposites. He completed his undergraduate studies at Shenyang Jianzhu University and earned a master’s degree from Guizhou University before pursuing his doctoral research. Throughout his academic career, Xiyang has focused on materials preparation and has published three SCI-indexed papers. His research interests include fabricating advanced nanocomposite materials with potential applications in various fields. Additionally, his work on the fabrication of Ni@ZrO2 nanocapsules has demonstrated enhanced antioxidation properties and controlled sintering shrinkage, contributing to the reliability of multi-layer ceramic capacitors (MLCCs).

Professional Profile:

Scopus

Suitability for the Best Researcher Award: Xiyang Li

Summary of Suitability:

Xiyang Li, a PhD student specializing in nanocomposites at Dalian University of Technology, presents a promising candidate for the Best Researcher Award. His academic journey spans multiple institutions, with degrees from Shenyang Jianzhu University and Guizhou University, culminating in his PhD studies focused on materials preparation. Li has published several SCI-indexed papers, indicating a strong research foundation and commitment to contributing to scientific knowledge.

🎓Education:

Xiyang Li is currently pursuing his Ph.D. in Materials Science at Dalian University of Technology, China, with a focus on nanocomposites and advanced materials fabrication. He holds a Master’s degree in Materials Science from Guizhou University, where he further honed his skills in materials preparation and characterization. Xiyang also completed his undergraduate studies in Materials Science at Shenyang Jianzhu University, China, laying the foundation for his research in the field.

🏢Work Experience:

Xiyang Li is a Ph.D. researcher at Dalian University of Technology, China, specializing in the preparation and application of nanocomposite materials. His research includes significant contributions to the development of Ni@ZrO2 nanocapsules, which have shown enhanced antioxidation properties and controlled sintering behavior, advancing the reliability of multi-layer ceramic capacitors (MLCCs). Prior to his doctoral studies, he worked as a research assistant at Guizhou University, where he focused on materials preparation and characterization for industrial applications.

🏅Awards:

Xiyang Li has published three SCI-indexed papers in recognized journals, highlighting his notable research contributions to the field of materials science. His work focuses on the development and application of advanced nanocomposite materials, advancing the understanding and potential industrial applications of these innovations.

Publication Top Notes:

  • In-situ Preparation of Ni@ZrO2 Nanocapsules Powder by DC Arc Plasma for Internal Electrode of MLCC
    • Citations: 2
  • Flexible Carbon-coated FeNi Alloy/PDMS Nanocomposites Toward a Multifunctional High-Performance Electromagnetic Absorber
    • Citations: 1
  • Tailoring of Electromagnetic Properties of Arc-produced Carbon-coated FeNi Alloy Nanocapsules for Highly Efficient Microwave Absorption
    • Citations: 6
  • Synthesis and Sintering Behaviors of Core–shell Ni@CrOx Nanocapsules as an Internal Electrode of MLCC
    • Citations: 1
  • Influence of N-doping on Dielectric Properties of Carbon-coated Copper Nanocomposites in the Microwave and Terahertz Ranges
    • Citations: 7

 

 

 

Assist. Prof. Dr. HudaF Khalil | Nanomaterials Awards | Excellence in Research

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Assist. Prof. Dr. HudaF Khalil | Nanomaterials Awards | Excellence in Research

Assist. Prof. Dr. HudaF Khalil | Nanomaterials Awards | Excellence in Research

Huda F. Khalil is a researcher in the Electronic Materials Department, specializing in the field of physics. She earned her PhD in Physics from Tanat University in 2021 and her MSc in Physics from Alexandria University in 2013. With a background in Special Physics from Alexandria University (2007), Huda has significantly contributed to materials science, particularly in nanomaterials and their applications. Her research interests include superconductivity, thermoelectric properties, and nanotechnology. She has been recognized for her work with various awards and certifications, including the Generation Program Scholarship and multiple certifications in workshops and training programs. Huda is also an active member of the Egyptian Society for Basic Sciences and the Materials Science Society. Her notable publications span a range of topics from optical properties of materials to advanced sensor applications in viral diagnosis.

Professional Profile:

Google Scholar

Scopus

Summary of Suitability for the “Excellence in Research” Award

Huda F. Khalil is an exceptionally qualified candidate for the “Excellence in Research” award due to her extensive contributions to the field of electronic materials and her impressive academic and professional background.

🎓Education:

Huda F. Khalil earned her PhD in Physics from Tanat University in 2021, where she conducted research within the Faculty of Science’s Physics Department. Prior to this, she completed her MSc in Physics at Alexandria University in 2013, also in the Faculty of Science’s Physics Department. Her academic journey began with a BSc in Special Physics, which she obtained from Alexandria University in 2007.

🏢Work Experience:

Huda F. Khalil currently works as a researcher in the Electronic Materials Department, where she focuses on advanced materials and their applications. She has previously served as a research assistant at the Academy of Scientific Research and Technology, part of Egypt’s Ministry of Higher Education & Scientific Research. Additionally, Huda has worked as an instructor at SRTA-CITY, where she has led various training programs, including those on Nanoscience Materials and Their Applications.

🏆Awards and Recognitions:

Huda F. Khalil has been recognized with several prestigious awards and honors throughout her career. She received the Generation Program Scholarship (SNG) and a Research Assistantship grant of 100,000 EGP from the Academy of Scientific Research and Technology. In 2022, she was honored with the Best Idea award at the Arab Youth Forum and also received an award from the Idea’s Competition at SRTA-CITY. Additionally, Huda was recognized with a Certification of Excellence in Reviewing by the Journal of Pharmaceutical Research International in 2020. She has also been awarded a Certificate of Appreciation for her contributions as an instructor at SRTA-CITY and has attended numerous workshops and seminars related to entrepreneurship, nanoscience, and materials science.

Publication Top Notes:

  • “Phase Change and Optical Band Gap Behavior of Se0.8S0.2 Chalcogenide Glass Films”

    Cited by: 22

  • “Preparation and Characterization of ZnS Nanocrystalline Thin Films by Low Cost Dip Technique”

    Cited by: 19

  • “Epitaxial Growth and Optical Properties of Laser Deposited CdS Thin Films”

    Cited by: 11

  • “Role of Cr3+ and In3+ Ions Substitution on Magnetic and Dielectric Properties for Developing Soft Magnetic M-Type Sr Nanohexaferrite”

    Cited by: 6

  • “Structural, Morphological, and γ-ray Attenuation Properties of M-Type Hexaferrite BaFe12O19 Doped with V2O5, Ce2O3, and Bi2O3 for Radiation Shielding Applications”

    Cited by: 4