Tao Song | Physical Chemistry | Research Excellence Award

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Mr. Tao Song | Physical Chemistry | Research Excellence Award

Assistant Professor | Hunan University of Technology | China

Mr. Tao Song is a researcher specializing in electrochemistry, functional organic materials, and surface engineering, with a particular focus on electroplating additives and structure–property relationships. The author has published 8 peer-reviewed research articles, receiving 30 citations with an h-index of 3, reflecting steady academic impact in applied electrochemical science. Research contributions include the design and characterization of imidazole-based and Schiff base derivatives for microvia copper electroplating, advancing performance control and process reliability. Collaborative work with 20 co-authors demonstrates strong interdisciplinary engagement across materials chemistry and electroanalysis. The research supports technological innovation in electronic manufacturing, contributing to improved efficiency, material utilization, and sustainable surface treatment processes with relevance to industrial and societal applications.

Citation Metrics (Scopus)

30
20
10
0

Citations

30

Documents

8

h-index

3

Citations

Documents

h-index

View Scopus ProfileView ORCID Profile

Featured Publications

Dominique Cardon | Analytical Techniques | Research Excellence Award

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Prof. Dr. Dominique Cardon | Analytical Techniques | Research Excellence Award

Director of Research Emerita | Centre Inter-universitaire d’Histoire et d’Archéologie Médiévales | France

 Dr. Dominique Cardon is a distinguished senior researcher recognized for her extensive contributions to textile history, natural dyes, and heritage science. With a research portfolio comprising 26 publications and 384 citations, her work demonstrates sustained scholarly relevance and interdisciplinary influence. Her expertise spans historical dyeing technologies, natural pigment chemistry, cultural textile heritage, chromatographic analysis of historical fabrics, and the preservation of traditional dyeing knowledge. Through rigorous analytical approaches combining historical manuscripts, material experimentation, and modern spectroscopic and chromatographic techniques, she has helped decode dye recipes, color sources, and textile processes used across centuries. Her scholarly work includes influential studies such as Woaded Blue, Yellow Dyes of Historical Importance, and Cochineal Reds in Iberia and France, which bridge historical documentation with experimental validation and modern scientific tools. Her collaborative approach is evident through partnerships with researchers across chemistry, archaeology, conservation science, and cultural heritage disciplines, fostering international research visibility and methodological advancement. Beyond academic research, her work contributes to cultural preservation, sustainable dye chemistry, and public understanding of traditional craftsmanship. Her contributions continue to support the development of reference frameworks for heritage conservation laboratories, museum science, and textile authentication, positioning her as a respected figure in natural dye research and historical textile science.

Profiles : ORCID | ResearchGate 

Featured Publications

Cardon, D., Espírito Santo, M., Díaz Hidalgo, R., Gonçalves Ferreira, L., Sequeira, J., Otero, V., & Nabais, P. (2025). Cochineal reds in Iberia and France: A comparative study of 18th-century tin-mordant recipes to dye wool. Heritage.

Cardon, D., Santo, M., Teixeira, N., & Nabais, P. (2023). Yellow dyes of historical importance: A handful of weld yellows from the 18th-century recipe books of French master dyers Antoine Janot and Paul Gout. Heritage, 6(12), Article 0391.

Cardon, D., Koren, Z. C., & Sumi, H. (2023). Woaded blue: A colorful approach to the dialectic between written historical sources, experimental archaeology, chromatographic analyses, and biochemical research. Heritage, 6(1), Article 0037.

Quye, A., Cardon, D., & Balfour Paul, J. (2020). The Crutchley Archive: Red colours on wool fabrics from master dyers, London 1716–1744. Textile History, 51(2), 179–197.

Chang Soon Huh | Physical Chemistry | South Korea

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Assist. Prof. Dr. Chang Soon Huh | Physical Chemistry | South Korea

Assistant Professor | Dong-Eui University | South Korea

Dr. Chang-soon Huh is an emerging researcher recognized for his growing contributions to analytical chemistry, biosensing technologies, and nanomaterial-assisted detection systems. With 13 peer-reviewed publications, 50 citations, and an h-index of 3, he demonstrates a steadily rising academic influence supported by methodologically robust and application-driven studies. His work integrates fluorescence spectroscopy, biomolecular recognition, and engineered nanomaterials to create rapid, sensitive, and cost-efficient diagnostic platforms capable of addressing contemporary analytical challenges. One of his notable achievements includes the development of a fluorescent detection strategy for alkaline phosphatase based on gold nanoclusters and p-nitrophenyl phosphate, underscoring his ability to connect fundamental chemical principles with practical biosensing innovation. His research portfolio highlights strong interdisciplinary collaboration, engaging co-authors across materials science, biotechnology, and chemical engineering, which enriches the scientific depth and applicability of his studies. These collaborations support novel advancements in high-sensitivity detection systems, enabling precise monitoring of biochemical reactions and contributing to improved diagnostic and environmental assessment methodologies. Beyond quantitative publication metrics, his work demonstrates broader societal relevance, particularly in areas requiring early disease detection, quality assurance in bioprocessing, and real-time analysis of biochemical pathways. His commitment to scientific rigor, innovation, and problem-solving positions him as a promising researcher with expanding influence in the global analytical science community. Through consistent scholarly output and an expanding citation record, Dr. Huh continues to advance impactful research that aligns with emerging needs in biosensing, nanotechnology, and chemical diagnostics.

Profiles : Scopus | ResearchGate

Featured Publications

Kim, S.-H., Huh, C.-S., & Kim, M.-M. (2025). Rapid and sensitive detection of alkaline phosphatase based on fluorescent gold nanoclusters and p-nitrophenyl phosphate. Journal of Bioscience and Bioengineering. Citations: 1

Lee, S. E., & Huh, C.-S. (2025). Application of smartphones to measurements of reducing power related to antioxidant activity. Journal of Analytical Chemistry.

Kim, G. H., Huh, C.-S., & Kim, M.-M. (2024). Development of a smartphone-based method for measuring the antioxidant efficacy of commercial beverages. Current Analytical Chemistry.

Talapphet, N., & Huh, C.-S. (2024). A smartphone colorimetric development with TMB/H₂O₂/HRP reaction system for hydrogen peroxide detection and its applications. Journal of Analytical Chemistry. Citations: 10

Talapphet, N., & Huh, C.-S. (2024). Development of gold nanocluster complex for the detection of tumor necrosis factor-alpha based on immunoassay. Journal of Immunological Methods. Citations: 4

Chang-soon Huh’s work advances analytical science through innovative biosensing and nanomaterial-based detection systems that improve accuracy, speed, and accessibility in chemical and biochemical analysis. His research supports global innovation in health diagnostics and contributes to practical technologies that strengthen scientific, industrial, and societal advancements.

Yumin Qian | Computational Chemistry | Chemical Scientist Award

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Dr. Yumin Qian | Computational Chemistry | Chemical Scientist Award

associate professor at Beijing Institute of technology, China.

Dr. Yumin Qian is an accomplished physicist and researcher specializing in solid-state physics, electrochemistry, and materials computation. He currently serves as an Associate Professor at the School of Physics, Beijing Institute of Technology, where he continues to contribute significantly to the advancement of energy materials and electrochemical systems. With a strong academic foundation and extensive international research experience, Dr. Qian has established himself as a prominent figure in the fields of energy storage and conversion. His career trajectory spans research appointments in China, Japan, and the United States, providing him with a global perspective on scientific collaboration and innovation. Dr. Qian’s research is primarily focused on surface and interface electrochemistry, as well as material simulations for advanced batteries and catalytic systems. His dedication to developing sustainable energy technologies has positioned him as a leading scientist whose work bridges theoretical modeling and experimental application in modern materials science.

Professional Profile 

Dr. Yumin Qian began his academic journey in physics at HuaZhong University of Science and Technology (HUST), Wuhan, China, where he earned his Bachelor’s degree. His undergraduate studies laid a strong foundation in physics, inspiring him to pursue advanced research in solid-state physics. Following this, he was admitted to the prestigious Institute of Physics, Chinese Academy of Sciences (CAS), where he pursued both his Master’s and Ph.D. degrees . At CAS, Dr. Qian trained at the Laboratory of Condensed Matter Theory and Materials Computation, gaining expertise in computational physics, materials modeling, and condensed matter theory. His doctoral research emphasized the theoretical and computational aspects of materials science, particularly as applied to electrochemical energy systems. This rigorous academic training at one of China’s leading scientific institutions provided him with advanced skills in solid-state physics and material simulations, forming the basis of his future career in electrochemical materials research.

Experience 

Dr. Yumin Qian possesses a rich and diverse professional background that spans academia and advanced research institutes worldwide. After completing his Ph.D., he joined the Fuel Cell Cutting-Edge Center Technology Research Association (FC-Cubic) Ltd. in Tokyo, Japan, as a Research Scientist, where he worked on innovative fuel cell technologies. He also served as a Senior Researcher at the Energy Technology Research Institute, National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba, Japan, deepening his expertise in energy technologies. His international research trajectory continued with postdoctoral appointments at Soochow University and the Texas Materials Institute at the University of Texas at Austin, focusing on materials for electrochemical energy storage. In 2021, he joined the School of Physics at Beijing Institute of Technology as an Associate Professor. His career reflects a consistent commitment to advancing electrochemical energy storage and conversion technologies.

Professional Development

Throughout his career, Dr. Yumin Qian has consistently engaged in professional development through international collaborations, interdisciplinary research, and academic appointments. His early postdoctoral research experiences at Soochow University and the University of Texas at Austin allowed him to expand his knowledge beyond theoretical materials physics into applied energy storage systems. These opportunities helped him to integrate advanced computational techniques with experimental investigations, strengthening his interdisciplinary approach. His time at FC-Cubic and AIST in Japan further honed his expertise in industrial and applied research, bridging the gap between fundamental physics and real-world energy technologies. At Beijing Institute of Technology, Dr. Qian continues to develop his academic leadership by mentoring students, publishing scholarly works, and participating in global research initiatives. His professional growth reflects a trajectory of continuous learning, skill enhancement, and adaptation to evolving scientific challenges, ensuring his relevance and contribution to both academic and industrial advancements in energy materials.

Skills & Expertise

Dr. Yumin Qian’s expertise lies at the intersection of solid-state physics, materials science, and electrochemistry. He has advanced skills in surface and interface electrochemistry, with a focus on the mechanisms that drive energy storage and conversion. His proficiency in material simulation and computational modeling allows him to predict, design, and optimize materials for next-generation batteries, catalysts, and energy conversion devices. Dr. Qian’s research extends across multiple electrochemical systems, including lithium, sodium, and magnesium batteries, as well as catalytic systems involving electro-, photo-, plasma-, and thermo-catalysis. His international work experience has equipped him with strong cross-cultural collaboration skills, while his academic positions highlight his teaching and mentoring abilities. Combining theoretical insight with practical application, Dr. Qian demonstrates strong analytical, problem-solving, and research leadership skills. His expertise in both computational and experimental approaches makes him a versatile scientist capable of addressing complex challenges in energy technology and sustainable materials research.

Resarch Focus

Dr. Yumin Qian’s research is primarily dedicated to advancing electrochemical energy storage and conversion technologies. His work emphasizes surface and interface electrochemistry, where he investigates the fundamental processes governing energy device performance and stability. By employing state-of-the-art material simulation techniques, he explores the atomic-level interactions and electronic structures that influence electrochemical reactions. His studies extend to catalytic systems, including electro-, photo-, plasma-, and thermo-catalysis, aiming to improve the efficiency and sustainability of energy conversion. Dr. Qian also focuses on the design and optimization of electrode materials for lithium, sodium, and magnesium batteries, addressing the growing demand for safe, high-capacity, and cost-effective energy storage solutions. His integrated approach bridges computational modeling with experimental insights, enabling the development of innovative materials that can meet the challenges of clean energy. This research focus highlights his commitment to sustainable technologies and his role in shaping the future of energy science.

Awards & Recognitions

While specific awards and recognitions are not explicitly listed in Dr. Yumin Qian’s CV, his professional trajectory reflects notable accomplishments and recognition in his field. Earning positions at internationally respected institutions such as the Chinese Academy of Sciences, AIST in Japan, and the University of Texas at Austin demonstrates the high regard in which his expertise is held. His appointment as an Associate Professor at Beijing Institute of Technology is itself a recognition of his academic and research contributions to physics and materials science. Furthermore, his publication record, as reflected in his Google Scholar profile, underscores his influence and visibility within the scientific community. His participation in global research projects and collaborations indicates recognition by peers and institutions that value his expertise. Collectively, his academic appointments, international research experience, and contributions to electrochemical materials science serve as implicit acknowledgments of his standing as a respected researcher in the field.

Publication Top Notes 

Title: Defect engineering metal‐free polymeric carbon nitride electrocatalyst for effective nitrogen fixation under ambient conditions
Authors: C Lv, Y Qian, C Yan, Y Ding, Y Liu, G Chen, G Yu
Year: 2018
Citations: 807

Title: Dual tuning of Ni–Co–A (A= P, Se, O) nanosheets by anion substitution and holey engineering for efficient hydrogen evolution
Authors: Z Fang, L Peng, Y Qian, X Zhang, Y Xie, JJ Cha, G Yu
Year: 2018
Citations: 516

Title: Polyanthraquinone as a reliable organic electrode for stable and fast lithium storage
Authors: Z Song, Y Qian, ML Gordin, D Tang, T Xu, M Otani, H Zhan, H Zhou, …
Year: 2015
Citations: 480

Title: O-coordinated W-Mo dual-atom catalyst for pH-universal electrocatalytic hydrogen evolution
Authors: Y Yang, Y Qian, H Li, Z Zhang, Y Mu, D Do, B Zhou, J Dong, W Yan, Y Qin, …
Year: 2020
Citations: 431

Title: Enhanced Surface Interactions Enable Fast Li+ Conduction in Oxide/Polymer Composite Electrolyte
Authors: N Wu, PH Chien, Y Qian, Y Li, H Xu, NS Grundish, B Xu, H Jin, YY Hu, …
Year: 2020
Citations: 384

Title: Poly (benzoquinonyl sulfide) as a high‐energy organic cathode for rechargeable Li and Na batteries
Authors: Z Song, Y Qian, T Zhang, M Otani, H Zhou
Year: 2015
Citations: 352

Title: A quinone-based oligomeric lithium salt for superior Li–organic batteries
Authors: Z Song, Y Qian, X Liu, T Zhang, Y Zhu, H Yu, M Otani, H Zhou
Year: 2014
Citations: 309

Title: Sulfurized polyacrylonitrile cathodes with high compatibility in both ether and carbonate electrolytes for ultrastable lithium–sulfur batteries
Authors: X Wang, Y Qian, L Wang, H Yang, H Li, Y Zhao, T Liu
Year: 2019
Citations: 279

Title: Study of the lithium/nickel ions exchange in the layered LiNi0.42Mn0.42Co0.16O2 cathode material for lithium ion batteries: experimental and first-principles calculations
Authors: H Yu, Y Qian, M Otani, D Tang, S Guo, Y Zhu, H Zhou
Year: 2014
Citations: 255

Title: Bridging Interparticle Li+ Conduction in a Soft Ceramic Oxide Electrolyte
Authors: WP Chen, H Duan, JL Shi, Y Qian, J Wan, XD Zhang, H Sheng, B Guan, …
Year: 2021
Citations: 222

Title: New Insights into Improving Rate Performance of Lithium-Rich Cathode Material
Authors: Y Wang, Z Yang, Y Qian, L Gu, H Zhou
Year: 2015
Citations: 221

Title: Multifunctional active‐center‐transferable platinum/lithium cobalt oxide heterostructured electrocatalysts towards superior water splitting
Authors: X Zheng, P Cui, Y Qian, G Zhao, X Zheng, X Xu, Z Cheng, Y Liu, SX Dou, …
Year: 2020
Citations: 212

Title: Room‐temperature all‐liquid‐metal batteries based on fusible alloys with regulated interfacial chemistry and wetting
Authors: Y Ding, X Guo, Y Qian, L Xue, A Dolocan, G Yu
Year: 2020
Citations: 171

Title: Polar polymer–solvent interaction derived favorable interphase for stable lithium metal batteries
Authors: J Bae, Y Qian, Y Li, X Zhou, JB Goodenough, G Yu
Year: 2019
Citations: 169

Title: An Ultrastable Anode for Long‐Life Room‐Temperature Sodium‐Ion Batteries
Authors: H Yu, Y Ren, D Xiao, S Guo, Y Zhu, Y Qian, L Gu, H Zhou
Year: 2014
Citations: 169

Overall, Dr. Yumin Qian is highly suitable for the Research for Chemical Scientist Award. His interdisciplinary expertise, impactful publications, international collaborations, and contributions to energy storage and conversion technologies make him an outstanding candidate. With further emphasis on global leadership roles, technology translation, and broader recognition, he could elevate his profile even more. Nonetheless, his current achievements already place him among the most promising and influential chemical scientists of his generation, and he is well-deserving of this recognition.

Zeinab Rohani Sarvestani | Computational Chemistry | Best Researcher Award

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Dr. Zeinab Rohani Sarvestani | Computational Chemistry | Best Researcher Award

Senior Chemist & Technical Director, Pars Sahel Bushehr Laboratory , Iran.

Dr. Zeinab Rohani Sarvestani is a dedicated senior chemist and technical director with a Ph.D. in Inorganic Chemistry. With over a decade of experience, she has contributed to academic, industrial, and standardization sectors. Her work spans computational chemistry, Alzheimer’s drug design, and polymer quality control. As a lecturer and lab leader, she bridges theory with practical innovation. She has published in reputed journals and led several research and consultancy projects. Known for her precision, leadership, and interdisciplinary collaborations, she continues to impact chemical sciences and quality management in Iran and beyond. 👩‍🔬📘🧪🧠

PROFILE 

GOOGLE SCHOLAR 

ORCID 

 

🔍 Summary of Suitability:

Dr. Rohani Sarvestani brings together strong academic credentials with a robust portfolio of interdisciplinary research and real-world application. Holding a Ph.D. in Inorganic Chemistry with a GPA of 19.38/20, she has over a decade of experience spanning academia, laboratory management, and industrial standardization. Her key contributions include:

🎓 Education and Experience 👩‍🏫

🎓 Education:

  • 📘 Ph.D. in Inorganic Chemistry, Persian Gulf University (2016–2025) – GPA: 19.38/20

  • 📘 M.Sc. in Inorganic Chemistry, Isfahan University of Technology (2005–2007) – GPA: 16.20/20

  • 📘 B.Sc. in Pure Chemistry, Shiraz University (2001–2005) – GPA: 15.30/20

💼 Professional Experience:

  • 🧪 Senior Chemist & Technical Director, Pars Sahel Bushehr Co. (2012–Present)

  • 👩‍🏫 Lecturer, University of Applied Science and Technology (2022–Present)

  • 🛠️ Standardization Specialist, Porsa Payesh & Pasanj Co. (2019–2024)

  • 🧫 Research & Technical Supervisor, Darya Services Consulting Co. (2022–2023)

  • 🧪 Quality Control Manager, Sarv ab Co. (2011–2012)

  • 👩‍🏫 High School Chemistry Teacher, Kharazmi School (2012–2014)

Professional Development 🚀📖

Dr. Rohani Sarvestani has actively pursued professional excellence through a blend of research, training, and certification. She holds numerous certifications in ISO/IEC 17025, GLP, and statistical quality control, and has been trained in molecular simulation software like GROMACS. Her participation in educational management and project control reflects her commitment to leadership in both lab and academic settings. 🧑‍🔬📚 She frequently engages in interdisciplinary projects and stays aligned with international standards. Her dual roles as a technical director and university lecturer showcase her dedication to continual improvement and innovation in chemical research and quality assurance. 🧪🔬💡

Research Focus 🔍🤖

Dr. Zeinab Rohani Sarvestani focuses on inorganic and computational chemistry with a strong interest in drug design for Alzheimer’s disease and polymer quality standards. 🧬🧠 Her research integrates theoretical chemistry with molecular modeling to design bioactive compounds, especially platinum–curcumin complexes targeting amyloid fibrils. In industry, she applies her expertise to improve polymer profiles used in various applications, ensuring their compliance with international standards. She actively bridges academic and industrial research through collaborative R&D projects, reinforcing her status as a dynamic, problem-solving scientist. 🧪🔬 Her work lies at the intersection of health, materials science, and chemical innovation. 🧫🧠🔍

Awards and Honors 🏆🎖️

  • 🎓 Top Ph.D. Student, Persian Gulf University – 2017

  • 🏅 Model Quality Control Manager, Bushehr Province – 2017

Publications & Citations 📚

  1. 🧪 “π-Stacking Interactions between Curcumin and Aromatic Rings of Amino Acids in Amyloid Fibrils”Computational and Theoretical Chemistry, 2023, [Cited by: Google Scholar] 📅🧠
    🔗 https://doi.org/10.1016/j.comptc.2023.114175

  2. 🧬 “Evaluation of Inhibition Potential of Platinum(II)–Curcumin Complex on Aβ(1–42) Aggregation: Docking and Molecular Dynamics Simulation”ChemistrySelect, 2025, [Cited by: Google Scholar] 📅🧪
    🔗 https://doi.org/10.1002/slct.202402892

Conclusion

Dr. Zeinab Rohani Sarvestani exemplifies the qualities of a best-in-class researcher—academic excellence, practical innovation, scientific publication, and leadership. Her diverse and high-impact work in both theoretical and applied chemistry not only advances science but also supports public health and industrial standards. She is a strong and deserving candidate for the Best Researcher Award. 🥇🔬📘

 

 

Sehrish Sarfaraz | Computational Chemistry | Best Scholar Award

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Dr. Sehrish Sarfaraz | Computational Chemistry | Best Scholar Award

PhD scholar at COMSATS university Islamabad abbottabad campus , Pakistan.

Dr. Sehrish Sarfaraz 🎓 is a dedicated computational chemist 🧪 and lecturer 👩‍🏫 at the Higher Education Department, KP, Pakistan. With a Ph.D. in Chemistry from COMSATS University Islamabad 🏛️, her research delves into advanced areas like single atom catalysis, hydrogen evolution reaction, and drug delivery systems 💊. She has authored impactful publications 📚 in high-impact journals and actively contributes to scientific symposiums 🌐. Dr. Sarfaraz excels in using computational tools to explore nanostructures and catalytic mechanisms 💻⚛️. Her passion for innovation and education is evident in her teaching, community involvement, and interdisciplinary collaborations 🤝.

PROFILE 

GOOGLE SCHOLAR 

SCOPUS 

🔍 Summary of Suitability:

Dr. Sehrish Sarfaraz exemplifies academic excellence, interdisciplinary innovation, and impactful research in the field of computational chemistry and nanomaterials. She has pursued and nearly completed a Ph.D. with a research focus on single atom catalysis, hydrogen evolution reactions, and drug delivery systems. Her strong publication record—over 16 peer-reviewed papers with a cumulative impact factor of 251—reflects her significant scholarly contributions. With 12 first-author publications, an h-index of 13, and frequent recognition in scientific conferences, she demonstrates both productivity and thought leadership in her field. She is also actively engaged in scientific events, workshops, and community outreach, contributing to knowledge dissemination and professional growth.

🔹 Education & Experience 

🎓 Education:

  • 📘 Ph.D. in Chemistry (2021–2024) – COMSATS University Islamabad, Abbottabad

  • 📘 M.Sc. in Chemistry (2018–2020) – COMSATS University Islamabad, Abbottabad

  • 📘 B.Sc. in Chemistry (2013–2017) – Hazara University Mansehra

💼 Experience:

  • 👩‍🏫 Lecturer in Chemistry (2023–Present) – Higher Education Department, KP

  • 🔬 Ph.D. Researcher – COMSATS University Islamabad, Abbottabad (Computational Chemistry Group)

  • 🧪 M.Sc. Researcher – IRCBM, Lahore Campus (Bone Repair & Regeneration)

Professional Development 🚀📖

Dr. Sehrish Sarfaraz has shown unwavering commitment to professional growth 📈. She has participated in numerous international conferences 🗣️ and symposiums, where she presented her innovative research in catalysis and biomedical materials 🧬. Her dedication extends to workshops in machine learning 🧠, computational biology 🔬, and energy materials ⚡. These experiences have honed her communication, research, and digital skills 💡. From mastering advanced DFT tools like Gaussian and VASP 💻 to gaining hands-on experience with analytical techniques like SEM, FTIR, and UV-Vis spectroscopy 🔍, she continuously pushes the boundaries of scientific excellence 🚀.

Research Focus 🔍🤖

Dr. Sarfaraz’s research is deeply rooted in computational chemistry 🧪💻, especially focused on density functional theory (DFT) to study single atom catalysis (SACs), hydrogen evolution reactions (HER), and nanostructured materials ⚛️. She explores the electronic properties, stability, and reactivity of metal-doped fullerenes and nanocages for green energy applications 🔋. Her work also intersects with drug delivery, nonlinear optical materials, and environmental sensing 🌍. By simulating complex molecular systems, she contributes to a deeper understanding of catalytic mechanisms and energy-efficient materials 🌿🔬. Her interdisciplinary approach bridges chemistry, materials science, and biomedical engineering 🤝.

Awards and Honors 🏆🎖️

🏆 Awards & Recognitions:

  • 🥇 Best Oral Presenter Award – 16th International Symposium on Advanced Materials (ISAM), 2019

  • 🥈 Best Poster Presentation Shield – 7th International Symposium on Biomedical Materials (ISBM), 2019

  • 📜 Multiple Certificates – Participation in workshops on Machine Learning, Computational Biology, Energy Materials, and more

Publications & Citations 📚

  • DFT investigation of adsorption of nitro-explosives over C2N surface53 citations, 2022 🔬💣

  • Computational investigation of a covalent triazine framework (CTF-0) as an electrochemical sensor41 citations, 2022 ⚗️📈

  • CTF-0 surface for detection of CWAs and industrial pollutants33 citations, 2022 ☢️🏭

  • Efficient detection of nerve agents via carbon nitride quantum dots31 citations, 2023 🧪🧠

  • Imidazolium ionic liquids with carbon nitride electrodes in supercapacitors31 citations, 2023 ⚡🧫

  • Single Atom Catalyst (Fe, Co, Ni) on C2N for H₂ dissociation23 citations, 2022 ⚙️🧯

  • Enhanced NLO response of calix[4]pyrrole-based earthides under EEF22 citations, 2022 💡🌐

  • Metallofullerene (M@C60) for hydrogen evolution reaction20 citations, 2024 🌍🚀

  • H₂ dissociation on TM-doped C24 nanocage SACs19 citations, 2023 🔩🧬

  • Functionalized SWCNT with sulfide ions: DFT study16 citations, 2022 🧵⚛️

  • TM-Doped C20 Fullerene SACs for H₂ dissociation15 citations, 2023 🧠🔬

  • Cavitand nanocapsule for 5-FU drug delivery: DFT insights14 citations, 2024 💊📦

  • TM-doped C20 fullerene for HER electrocatalysis14 citations, 2023 🧪💥

  • Supramolecular reduction of nitro compounds in cucurbit[7]uril14 citations, 2023 🧊🔻

  • 36Adz-based alkaline earthides with NLO response14 citations, 2023 💠📡

  • TM-doped C24 electrocatalysts for HER: Thermodynamics/Kinetics13 citations, 2023 ⚛️⏱️

  • Catalysis in porous organic cage CC2: Transformation/inhibition13 citations, 2022 🧴🚧

  • Ionic liquids interaction with porous vs non-porous electrodes12 citations, 2023 💧⚙️

  • Thiourea analogues as β-glucuronidase inhibitors + docking12 citations, 2022 🧬🧫

  • 15-crown-5 ether earthides with NLO response11 citations, 2022 👑🔆

🔍 Conclusion:

In conclusion, Dr. Sehrish Sarfaraz not only meets but exceeds the criteria for the Best Scholar Award 🏆. Her research contributions have direct implications for global challenges in energy sustainability, health care, and environmental protection 🌍. With an outstanding blend of academic rigor, innovation, and professional integrity, she is a prime candidate to receive recognition for her scholarly excellence and future potential.

 

 

Jiming Bian | Physical Chemistry | Best Researcher Award

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Prof. Jiming Bian | Physical Chemistry | Best Researcher Award

Professor at Dalian University of Technology in China.

Prof. Jiming Bian 🧑‍🔬, a leading researcher at Dalian University of Technology 🇨🇳, earned his Ph.D. from the Shanghai Institute of Ceramics in 2005. Specializing in emerging semiconductors ⚛️, he has spearheaded major projects on perovskite LEDs and optoelectronic devices. With over 200 publications 📚 and an impressive H-index of 39, his work is globally recognized, including four ESI hot/highly cited papers 🔬. A recipient of multiple science and technology awards 🏆, he also holds 10 patents and collaborates internationally 🌍. His innovation in carbon-based PSCs achieved record-breaking performance ⚡, pushing boundaries in solar technology ☀️.

Professional Profile

ORCID

🔍 Summary of Suitability:

Prof. Jiming Bian is an outstanding candidate for the Best Researcher Award due to his exceptional contributions to the field of materials science and optoelectronic devices ⚛️. With a Ph.D. from the prestigious Shanghai Institute of Ceramics and his role as Professor at Dalian University of Technology 👨‍🏫, he has consistently delivered impactful research with real-world applications. His work demonstrates innovation, scientific excellence, and international recognition 🌍.

🎓 Education

📍 Ph.D. in Materials Science (2005)
Shanghai Institute of Ceramics, Chinese Academy of Sciences, China 🇨🇳

💼 Professional Experience

  • 👨‍🏫 Professor & Ph.D. Supervisor
    Dalian University of Technology, China 🇨🇳

  • 🔬 Research Specialization:
    Growth, electro-optical conversion, and device application of emerging semiconductors ⚛️

  • 📈 Research Achievements:

    • Published over 200 peer-reviewed articles in top journals like Joule, ACS Energy Letters, and Energy & Environmental Science 📚

    • Holds 10 published patents 🧾

    • H-index of 39 (Scopus) 📊

    • 4 papers recognized as ESI hot or highly cited 🔥

  • 🤝 Global Collaborations:

    • UCLA (USA) 🇺🇸

    • Sungkyunkwan University (South Korea) 🇰🇷

    • EPFL (Switzerland) 🇨🇭

  • 🏆 Honors & Awards:

    • Liaoning Province Excellent Postgraduate Tutor 🧑‍🎓

    • Multiple provincial & ministerial science and tech awards 🥇

Professional Development 🚀📖

Prof. Jiming Bian has steadily advanced in the field of materials science and semiconductor research ⚛️. After earning his Ph.D. 🎓 in 2005, he has become a prominent professor and Ph.D. supervisor 👨‍🏫 at Dalian University of Technology. His journey includes leading several national and provincial research projects 🔬, publishing over 200 articles 📚, and securing 10 patents 🧾. With an H-index of 39 📊 and international collaborations 🌍, he contributes to pioneering technologies like perovskite LEDs and solar cells ☀️. His editorial and scientific roles further establish him as a respected leader in electro-optical innovation 🏅.

Research Focus 🔍🤖

Prof. Jiming Bian’s research focuses on emerging semiconductors and their applications in optoelectronic devices ⚡. He specializes in the growth, charge transport, and electro-optical conversion of materials like perovskites 🧪. His innovative work on carbon-based perovskite solar cells (C-PSCs) ☀️ addresses major stability issues and has achieved world-record power conversion efficiency 📈. Additionally, his modular configurations improve device flexibility 🔁 and longevity. His expertise spans the fields of materials science, photovoltaics, and flexible electronics, contributing to green energy technologies 🌱 and next-gen semiconductor devices 🧠. His cutting-edge approach continues to push boundaries in sustainable and high-performance electronics 🔬.

Awards and Honors 🏆🎖️

  • 🏆 Liaoning Province Excellent Postgraduate Tutor

  • 🥇 Recipient of three provincial and ministerial science and technology awards

  • 🔥 Four papers selected as ESI Hot or Highly Cited Papers

  • 📈 Recognized for achieving world-record efficiency (22.65%) in modular carbon-based perovskite solar cells

  • 🌍 Editorial board member of Journal of Inorganic Materials – an SCI journal with international influence

Publications & Citations 📚

  • 📘 Piezo-phototronic effect improved performance… (2017) — Cited by: 223 📈 | [DOI: 10.1016/J.NANOEN.2016.12.028]

  • 💡 Electroluminescence from perovskite LEDs… (2016) — Cited by: 130 ✨ | [DOI: 10.1016/J.CPLETT.2016.09.041]

  • 🔋 Branched ZnO nanotrees on flexible fiber-paper… (2015) — Cited by: 98 ⚡ | [DOI: 10.1039/C4RA09163A]

  • 🔬 Controllable end shape modification of ZnO nano-arrays… (2015) — Cited by: 55 🧪 | [DOI: 10.1088/0022-3727/48/36/365303]

  • ⚙️ Enhanced performance of wearable piezoelectric nanogenerator… (2014) — Cited by: 190 🔧 | [DOI: 10.1063/1.4869118]

 🔍 Conclusion:

Prof. Jiming Bian’s prolific publication record, technological innovations, and global collaborations mark him as a leading scientist in semiconductor and energy materials research 🌟. His pioneering work in perovskite-based technologies not only advances academic understanding but also offers transformative solutions for sustainable energy ⚡🌱. These achievements make him an ideal and deserving recipient of the Best Researcher Award 🏅.

 

 

EDUVAN VALENCIA-CRISTANCHO | Rational drug design | Best Researcher Award

Published on by Chemical Scientist

 

Prof. EDUVAN VALENCIA-CRISTANCHO | Rational drug design | Best Researcher Award

Teacher at Secretary of Education of Bogotá in Colombia.

Eduvan Daniel Valencia Cristancho 🇨🇴, born on September 26, 1985, in Bogotá, Colombia, is a distinguished chemist specializing in the rational design of compounds with potential antimicrobial activity 🧪. He holds a Bachelor’s degree in Chemistry from the Universidad Pedagógica Nacional and a Master’s in Chemical Sciences from the Universidad Nacional de Colombia 🎓. Eduvan has participated as a speaker at national and international conferences on chemistry and science education 🌍. Currently working at the District Education Secretariat, he focuses on computational chemistry and bioinformatics research on NDM-1 inhibitors 🧬, contributing significantly to the country’s scientific and educational advancement 📚.

Professional Profile
Suitability for the Researcher Award

Eduvan is a multidisciplinary researcher whose work addresses global health challenges, especially the fight against antibiotic resistance through the study of NDM-1 inhibitors 🦠. His innovative use of molecular modeling, ADMET analysis, and molecular dynamics has advanced understanding in the search for new antimicrobial compounds 🔬. Additionally, his dedication to merging science, technology, and education through STEAM initiatives 🎨📚 demonstrates his commitment to both academic excellence and social impact.

Education 🎓

  • 📘 Master’s Degree in Chemical Sciences – Universidad Nacional de Colombia (2013 – 2015)
    Research: Rational design of spirothiazolidinone, pyrazolothiazolidinone, and pyrazolo β-lactam compounds with potential antimicrobial activity.
  • 📗 Bachelor’s Degree in Chemistry Education – Universidad Pedagógica Nacional (2004 – 2008)
    Research: Extraction of dextran from orange peel waste and its inclusion in a didactic unit for teaching carbohydrate concepts.
  • 🖥️ Short Course: Microsoft Colombia – Minecraft Education (2021)
  • 🍊 Short Course: Universidad Nacional de Colombia – Aroma Processing for Food (2013)

Experience 💼

  • 🏫 Current Position: Educator at the District Education Secretariat of Bogotá
  • 🧠 Researcher:
    • Focus on computational chemistry, bioinformatics, and molecular modeling (NDM-1 inhibitors).
    • Author of several scientific articles and book chapters on molecular docking and antimicrobial compounds.
  • 🎤 Speaker at Events:
    • 9th International Electronic Conference on Medicinal Chemistry (2023)
    • 1st International Congress on Physics Research and Teaching (2022)
    • XXVIII National Physics Congress (2019)
    • 31st Latin American Chemistry Congress (2014)
  • 🧪 Scientific Contributions:
    • Studies on ADMET properties, molecular dynamics, and micromagnetic simulations.
    • Integration of science and art in education through innovative projects.

 

Professional Development 🚀📖

Eduvan Daniel Valencia Cristancho 🇨🇴 has demonstrated continuous professional development through diverse academic and scientific contributions 🧠. He has completed specialized training, such as the Minecraft Education course by Microsoft Colombia (2021) 🖥️ and the Aroma Processing for Food course at Universidad Nacional de Colombia (2013) 🍊. Eduvan actively enhances his expertise in computational chemistry, bioinformatics, and educational innovation 📚. As a frequent speaker at national and international conferences 🌍, he shares his research on molecular modeling and NDM-1 inhibitors 🧬. His commitment to integrating technology, science, and education continues to impact his field profoundly 🔬.

Research Focus 🔍🤖

Eduvan Daniel Valencia Cristancho 🇨🇴 focuses his research on computational chemistry 🧪, bioinformatics 💻, and molecular modeling 🧬, particularly targeting NDM-1 enzyme inhibitors to combat antimicrobial resistance 🦠. His work involves in silico studies, including ADMET analysis, molecular docking, and molecular dynamics simulations 🔍. Additionally, he contributes to organic chemistry through the rational design of bioactive compounds 🌿. Eduvan also integrates STEAM education 🎨📚, exploring the connection between science and art to create innovative learning experiences for students 🏫. His interdisciplinary approach strengthens both scientific research and educational methodologies worldwide 🌍.

Awards & Honors 🏅🎖️
  • 🎤 Recognized speaker at prestigious national and international scientific events, such as:
    • 9th International Electronic Conference on Medicinal Chemistry (2023) 🌍
    • 1st International Congress on Physics Research and Teaching (2022) 🧠
    • XXVIII National Physics Congress (2019) 🔬
    • 31st Latin American Chemistry Congress (2014) 🌎
  • 📚 Contributor to peer-reviewed scientific journals with impactful publications on NDM-1 inhibitors and computational chemistry 🧬.
  • 🎨 Acknowledged for integrating art and science in innovative educational projects through STEAM education initiatives 🏫.

 

Publication Top Notes:

“Review, Characterization, and Bioinformatic Analysis of New Delhi Metallo-β-Lactamase-1 (NDM-1)” – Published in Revista de la Facultad de Ciencias (2023) 📅 | 📑 Cited by: Not specified

📄 “In Silico Study of the ADMET Properties of Potential Inhibitors of New Delhi Metallo-β-Lactamase-1 (NDM-1)” – Published in Development of the International Agricultural Commerce Since the Mid Seventies (2023) 📅 | 📑 Cited by: Not specified

📄 “Estimation of Bond Free Energy with Gmx_Mmpbsa in NDM-1 Complexes” – Published in Advanced Journal of Chemistry Section A (2024) 📅 | 📑 Cited by: Not specified

📄 “In Silico Evaluation of Potential NDM-1 Inhibitors: An Integrated Docking and Molecular Dynamics Approach” – Published in Pharmaceuticals (2024) 📅 | 📑 Cited by: Not specified

📕 Book Chapter: “In Silico Study of the ADMET Properties of Potential Inhibitors of NDM-1” in Uniting Knowledge Integrated Scientific Research for Global Development (2023) 📅

📕 Book Chapter: “Science and Art ‘Transformer of Lives'” in Education of the Future: Inspiration Through Innovative Experiences DOKUMA 2022 (2023) 📅

📌 Conclusion:

With a strong track record of innovative research, impactful publications, and contributions to scientific education, Eduvan Daniel Valencia Cristancho is an excellent candidate for the Best Researcher Award 🏅. His work not only advances critical fields like antimicrobial resistance research but also bridges the gap between science and education, making lasting contributions to both the scientific community and society at large 🌟.