Bunyamin Cicek | Materials Chemistry | Material Chemistry Award

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Assoc. Prof. Dr. Bunyamin Cicek | Materials Chemistry | Material Chemistry Award

Hitit University, Turkey

👨‍🎓Profiles

🎓 Academic Background and Current Affiliation

Assoc. Prof. Dr. Bunyamin Cicek is a distinguished researcher in Materials Chemistry and Biomaterials, currently affiliated with Hitit University, Turkey. With extensive experience in material science, his contributions have significantly impacted the field of biomaterials and chemical engineering.

📊 Research Contributions and Focus

Dr. Cicek's research primarily revolves around materials chemistry and biomaterials, with a strong emphasis on developing advanced materials for biomedical and industrial applications. His work integrates chemical synthesis, material characterization, and application-based research, contributing to innovations in biomaterial development and material surface modifications.

🔬 Publication Metrics and Research Impact

Dr. Cicek’s research has been well recognized within the scientific community, as reflected in his publication metrics:

H-index: 8

Total Citations: 193

Total Publications: 34

Web of Science Core Collection Publications: 24

His scholarly output demonstrates his contributions to materials chemistry and the growing significance of his research in advancing biomaterial technologies.

🏆 Recognitions and Researcher Profiles

Dr. Cicek maintains an active presence in the global research community through platforms such as: Web of Science ResearcherID, ORCiD. These profiles showcase his scientific contributions, collaborations, and ongoing research endeavors, solidifying his reputation as a leading expert in materials chemistry and biomaterials.

🌍 Future Contributions and Research Vision

Dr. Cicek continues to expand the frontiers of materials science, focusing on the development of sustainable and high-performance biomaterials. His future research aims to enhance material functionalities for medical, environmental, and industrial applications, ensuring a lasting impact on the field. His dedication to scientific advancement positions him as a key contributor to cutting-edge materials research and innovation. 🚀

📖Notable Publications

  • Production of 316L stainless steel implant materials by powder metallurgy and investigation of their wear properties

    • Authors: N. Kurgan, Y. Sun, B. Cicek, H. Ahlatci
    • Journal: Chinese Science Bulletin
    • Year: 2012

  • Wear behaviours of Pb added Mg–Al–Si composites reinforced with in situ Mg₂Si particles

    • Authors: B. Çiçek, H. Ahlatçı, Y. Sun
    • Journal: Materials & Design
    • Year: 2013

  • A study on the mechanical and corrosion properties of lead added magnesium alloys

    • Authors: B. Çiçek, Y. Sun
    • Journal: Materials & Design
    • Year: 2012

  • Kinetic investigation of AISI 304 stainless steel boronized in indirect heated fluidized bed furnace

    • Authors: P. Topuz, B. Çiçek, O. Akar
    • Journal: Journal of Mining and Metallurgy, Section B: Metallurgy
    • Year: 2016

  • Effects of alloying element and cooling rate on properties of AM60 Mg alloy

    • Authors: L. Elen, B. Cicek, E. Koc, Y. Turen, Y. Sun, H. Ahlatci
    • Journal: Materials Research Express
    • Year: 2019

 

Wei Lv | Materials Chemistry | Best Researcher Award

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Dr. Wei Lv | Materials Chemistry | Best Researcher Award

North China Electric Power University, China

👨‍🎓Profiles

🎓 Academic Background

Dr. Wei Lv obtained his Ph.D. in Materials Chemistry from Central Iron & Steel Research Institute in 2018, specializing in the development of advanced materials for energy storage applications. His strong academic foundation has fueled his contributions to the field of energy storage and biomedicine.

🏛️ Professional Endeavors

Currently, Dr. Wei Lv serves as an Associate Professor at North China Electric Power University, China. His work bridges the gap between materials chemistry and practical energy storage solutions, making significant strides in both academic research and industrial applications.

🔬 Research Focus & Contributions

Dr. Wei Lv’s research primarily revolves around:
✔️ Aqueous Batteries & Key Materials 🔋 – Developing next-generation sustainable and high-performance energy storage solutions.
✔️ Energy Storage Materials ⚡ – Exploring novel materials for improving battery efficiency, capacity, and stability.
✔️ Biomedical Applications 🏥 – Investigating the role of energy storage materials in medical and healthcare technologies.

Through innovative research, he has made substantial contributions to the understanding and advancement of energy storage materials and their applications in sustainable technologies.

📚 Publications & Academic Impact

Dr. Lv has authored multiple SCI-indexed papers, significantly contributing to materials chemistry and energy storage research. His work has been widely cited, demonstrating its influence in the scientific community.

🛠️ Technical Expertise

Dr. Wei Lv possesses expertise in various cutting-edge research methodologies, including:
✔️ Battery Electrode Material Design & Synthesis
✔️ Electrochemical Performance Evaluation
✔️ Advanced Materials Characterization Techniques
✔️ Biocompatibility Testing for Biomedical Applications
✔️ Sustainable Energy Storage Technologies

🎓 Teaching & Mentorship

As an Associate Professor, Dr. Wei Lv actively mentors undergraduate and postgraduate students, providing them with guidance on research methodologies, experimental techniques, and scientific writing. His mentorship plays a crucial role in shaping the next generation of researchers in materials science and energy storage.

🌍 Future Contributions & Research Vision

Dr. Lv is committed to advancing sustainable energy storage solutions and biomedical applications. His future research aims to:
🔹 Develop eco-friendly and high-performance battery materials for renewable energy applications.
🔹 Explore novel materials for biomedical energy storage technologies.
🔹 Bridge materials chemistry with real-world applications in energy and medicine..

📖Notable Publications

In situ synthetic C encapsulated δ-MnO₂ with O vacancies: a versatile programming in bio-engineering

Authors: W. Lv, Z. Shen, J. Liu, J. Meng, C. Xu

Journal: Science Bulletin

Year: 2025

Discovering Cathodic Biocompatibility for Aqueous Zn–MnO₂ Battery: An Integrating Biomass Carbon Strategy

Authors: W. Lv, Z. Shen, X. Li, Y. Tian, C. Xu

Journal: Nano-Micro Letters

Year: 2024

Niobium fluoride-modified hydrogen evolution reaction of magnesium borohydride diammoniate

Authors: Y. Lv, B. Zhang, H. Huang, D. Sun, Y. Wu

Journal: Journal of Materials Science and Technology

Year: 2023

Nader Ghaffari Khaligh | Materials Chemistry | Best Researcher Award

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Assoc. Prof. Dr. Nader Ghaffari Khaligh | Materials Chemistry | Best Researcher Award

University of Malaya, Malaysia

👨‍🎓Profiles

🎓 Early Academic Pursuits

Nader Ghaffari Khaligh embarked on his academic journey with a Bachelor's degree in Applied Chemistry, where he developed a strong foundation in chemical principles and practical applications. He further honed his expertise by earning a Master’s degree in Organic Chemistry from Shahid Beheshti University, specializing in advanced synthesis and chemical methodologies. His passion for organic synthesis and catalysis led him to pursue a Ph.D. in Organic Chemistry at the University of Guilan, Iran, where he focused on innovative catalytic systems and sustainable chemical transformations.

💼 Professional Endeavors

Since 2015, Dr. Khaligh has been a dedicated researcher at the Nanotechnology & Catalysis Research Center, Universiti Malaya, Malaysia. His work involves cutting-edge research in catalysis, sustainable chemistry, and novel chemical reagent development. He has actively collaborated with leading scientists and research institutions, contributing to the advancement of green chemistry and efficient catalytic processes. In addition to his research, he plays a crucial role in scientific publishing as the Associate Editor and Section Editor of two prestigious international journals and serves on the editorial board of several others.

🔬 Contributions and Research Focus

Dr. Khaligh’s research is centered on both heterogeneous and homogeneous catalysis, focusing on sustainable energy solutions and environmentally friendly chemical transformations. His significant contributions include the development of ionic liquids, functional polymers, and novel multi-task reagents for efficient organic synthesis. His pioneering work in the synthesis of heterocycles and advanced catalytic systems has opened new avenues in medicinal and material chemistry. His research plays a crucial role in addressing global challenges related to energy, sustainability, and green chemistry.

🌍 Impact and Influence

Dr. Khaligh’s outstanding contributions to the scientific community have been recognized internationally. He has been honored as one of the World's Top 2% Scientists by Stanford University for six consecutive years (2019–2024), both in the Career-Long Citation Impact and Annual Recognition categories. His research has not only influenced academia but also industries focused on sustainable chemistry and innovative material design.

📚 Academic Citations and Recognitions

His extensive body of work, including research papers, reviews, and mini-reviews, has garnered widespread recognition, with numerous citations from fellow researchers. His publications have significantly contributed to advancements in catalysis, organic synthesis, and sustainable materials, earning him a strong academic reputation. As an editor and peer reviewer, he plays a key role in maintaining high standards in scientific publishing and guiding emerging researchers.

🛠️ Technical Skills and Expertise

Dr. Khaligh possesses expertise in various analytical and synthetic techniques, including:

  • Catalysis Development (Heterogeneous & Homogeneous)
  • Ionic Liquids and Functional Polymers
  • Synthesis of Heterocycles
  • Green and Sustainable Chemistry
  • Spectroscopic and Chromatographic Techniques (NMR, IR, Mass Spectrometry, HPLC, GC-MS)

🎓 Teaching and Mentorship Experience

Alongside his research, Dr. Khaligh is actively involved in academic mentorship and training young scientists. He has supervised and guided students in advanced chemical synthesis, catalysis, and materials research. His mentorship has helped shape the next generation of chemists and researchers, emphasizing innovative problem-solving and sustainable scientific practices.

🔮 Legacy and Future Contributions

With a strong track record in research and scientific impact, Dr. Khaligh continues to explore new frontiers in green chemistry and sustainable catalysis. His future work aims to further enhance eco-friendly chemical processes, develop high-efficiency catalytic materials, and contribute to the advancement of cleaner, more sustainable industrial applications. His dedication to research, publication, and mentorship ensures a lasting legacy in the field of chemistry and catalysis.

📖Notable Publications

Synthesis and characterization of 5-cyclopentylsulfanyl-3H-[1,3,4]thiadiazole-2-thione and study of its single-crystal structure, FTIR spectra, thermal behavior, and antibacterial activity

Authors: N.F.A. Basir, Nurul Fatimah Abdul, M. Ghafarikhaligh, Mahta, M.R.B. Johan, Mohd Rafie Bin, N.G. Ghaffari Khaligh, Nader Ghaffari

Journal: Journal of Thermal Analysis and Calorimetry

Year: 2024

Synthesis, Characterization, and the Study of Thermal Behavior and Catalytic Activity of a Halogen-free Dicationic Ionic Liquid

Authors: L. Zaharani, Lia, S. Johari, Suzaimi, M.R.B. Johan, Mohd Rafie Bin, N.G. Ghaffari Khaligh, Nader Ghaffari

Journal: Catalysis Letters

Year: 2024

Tribological behavior of sulfonitrided tribofilm generated from non-corrosive dimercaptobenzothiadiazole-based additives as effective boundary lubrication layer

Authors: C. Ong, Chiuling, Y.C. Lai, Yew Chong, W.K. Tang, Wai Kit, N.G. Ghaffari Khaligh, Nader Ghaffari, J. Juan, Joonching

Journal: Journal of Molecular Liquids

Year: 2024

Determining the pKa1 and pKa2 Values of 4,4′-Trimethylenedipiperidine (TMDP), a Diprotic Organic Base with Unknown pKa Values

Authors: L. Zaharani, Lia, N.G. Ghaffari Khaligh, Nader Ghaffari

Journal: Journal of Solution Chemistry

Year: 2024

Bis[1,3-di(4-piperidinium)propane] di-hydrogensulfate mono-sulfate trihydrate: An organic molten salt containing simultaneous acceptor-donor hydrogen bonding and Brönsted acid for homogeneous catalysis

Authors: L. Zaharani, Lia, M.J. Rafie, Mohd Johan, N.G. Ghaffari Khaligh, Nader Ghaffari

Journal: Journal of Molecular Structure

Year: 2024

 

 

Arnab Banerjee | Quantum Computation of Materials | Best Researcher Award

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Assist. Prof. Dr. Arnab Banerjee | Quantum Computation of Materials | Best Researcher Award

Purdue University, United States

👨‍🎓Profiles

🏫 Early Academic Pursuits

He began his academic journey with a passion for material science and technology. His foundational studies emphasized materials synthesis and analytical properties, laying the groundwork for his later groundbreaking contributions to solid-state quantum computing. His academic curiosity drove him to explore quantum magnetism, fostering an interdisciplinary approach that bridges chemistry, physics, and computational sciences.

💼 Professional Endeavors

Currently an Assistant Professor at Purdue University, Dr. Banerjee is an esteemed researcher and faculty member specializing in quantum materials and computing. He actively manages five funded projects supported by the DOE, Keck Foundation, and NSF-IUCRC/Industry, involving advanced quantum chemistry, crystallography, and quantum Hamiltonian modeling using cutting-edge quantum computers. His collaborations with Los Alamos and Oak Ridge National Laboratories and industry leaders like IBM-Q and D-Wave highlight his integration into global research ecosystems.

🌟 Contributions and Research Focus

His research has revolutionized our understanding of quantum materials. Notably, his discovery of the Kitaev candidate material RuCl₃ and the first evidence of magnetic Majorana fermions earned recognition as one of 2016's top science achievements by Discover Magazine. His innovative work links magnetic material modeling, neutron scattering experiments, and quantum computation, published in leading journals such as Physical Review B (Editor's Suggestion), npj Quantum Information, and Nature Communications.

🌍 Impact and Influence

Dr. Banerjee's contributions to quantum computing and magnetism have a global impact. By collaborating with institutions like Caltech and DOE National Labs, he fosters cross-disciplinary innovation. His efforts to integrate quantum computing into material sciences pave the way for achieving higher quantum coherence, driving advancements in both theoretical and applied sciences.

📈 Academic Citations and Recognitions

With 41 peer-reviewed journal articles and a citation index of 28, He is a highly regarded figure in his field. As a guest editor for MDPI's special issue, he contributes to the scientific community by curating cutting-edge research. His expertise and influence are recognized through memberships in the American Physical Society and the Materials Research Society.

🛠 Technical Skills

His technical repertoire includes quantum chemistry, spin density of state measurements, phonon analysis, and advanced neutron scattering techniques. He excels in quantum Hamiltonian modeling using quantum computers, bridging experimental observations with theoretical predictions to accelerate material discoveries.

👩‍🏫 Teaching and Mentorship

As an educator, Dr. Banerjee is dedicated to cross-training students and staff in quantum materials and computing. He collaborates with national laboratories and industries to create immersive learning experiences that prepare the next generation of researchers to tackle forefront scientific challenges.

🌱 Legacy and Future Contributions

He envisions a future where quantum computing and material sciences converge seamlessly. His ongoing research aims to uncover novel materials and phenomena that enhance quantum coherence, bringing quantum computing closer to practical applications. His commitment to mentoring and collaboration ensures a lasting legacy in advancing science and nurturing innovation.

📖Notable Publications

  1. Gibbs state sampling via cluster expansions
  2. Authors: Eassa, N.M.; Moustafa, M.M.; Banerjee, A.; Cohn, J.
    Journal: npj Quantum Information, 2024.
  3. High-fidelity dimer excitations using quantum hardware
  4. Authors: Eassa, N.M.; Gibbs, J.; Holmes, Z.; Cohn, J.; Banerjee, A.
    Journal: Physical Review B, 2024.
  5. Magnetic interactions and excitations in SrMnSb₂
  6. Authors: Ning, Z.; Li, B.; Tang, W.; McQueeney, R.J.; Ke, L.
    Journal: Physical Review B, 2024.
  7. Experimental evidence for nonspherical magnetic form factor in Ru³⁺
  8. Authors: Sarkis, C.L.; Villanova, J.W.; Eichstaedt, C.; Berlijn, T.; Nagler, S.E.
    Journal: Physical Review B, 2024.
  9. Purely antiferromagnetic frustrated Heisenberg model in the spin-ladder compound
  10. Authors: Roll, A.; Petit, S.; Forget, A.; Foury-Leleykian, P.; Balédent, V.
    Journal: Physical Review B, 2023.
  11. Dynamic Asset Allocation with Expected Shortfall via Quantum Annealing
  12. Authors: Xu, H.; Dasgupta, S.; Pothen, A.; Banerjee, A.
    Journal: Entropy, 2023.
  13. Simulations of frustrated Ising Hamiltonians using quantum approximate optimization
  14. Authors: Lotshaw, P.C.; Xu, H.; Khalid, B.; Humble, T.S.; Banerjee, A.
    Journal: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2023.
  15. Planar thermal Hall effect of topological bosons in the Kitaev magnet α-RuCl₃
  16. Authors: Czajka, P.; Gao, T.; Hirschberger, M.; Nagler, S.E.; Ong, N.P.
    Journal: Nature Materials, 2023.
  17. Distinct Acoustic and Optical Phonon Dependences on Particle Size, Oxidation, and Temperature in Silicon Nanocrystals
  18. Authors: Chen, S.; Coleman, D.; Abernathy, D.L.; Mangolini, L.; Li, C.
    Journal: Journal of Physical Chemistry C, 2022.
  19. Extraction of interaction parameters for α-RuCl₃ from neutron data using machine learning
  20. Authors: Samarakoon, A.M.; Laurell, P.; Balz, C.; Okamoto, S.; Tennant, D.A.
    Journal: Physical Review Research, 2022.