Cyrille Ngoufack Tagousop | Organic Chemistry | Young Researcher Award

Published on by Analytical Chemistry

Dr. Cyrille Ngoufack Tagousop | Organic Chemistry | Young Researcher Award

University of Ngaoundere | Cameroon

Dr. Cyrille Ngoufack Tagousop is a Senior Lecturer and natural product chemist whose research focuses on the chemical investigation of Cameroonian medicinal plants for bioactive secondary metabolites. His work integrates advanced spectroscopic and spectrometric techniques, including NMR and ESIMS, through collaborations with international facilities such as the PlAneT CPER project and CREMAN at the University of Liège. He has isolated and characterized more than fifty novel or rare secondary metabolites, many of which exhibit exceptional antimicrobial activity, surpassing commercially available antibiotics. These compounds represent valuable lead structures for the development of new therapeutic agents capable of addressing the global challenge of antimicrobial resistance. With 12 peer-reviewed publications, he contributes significantly to natural product drug discovery and actively supports scientific advancement as a reviewer for leading journals in the field.

Citation Metrics (Scopus)

400
300
200
100
0

Citations
227

Documents
7

h-index
4

Citations

Documents

h-index

View Scopus Profile

Featured Publications

Nikolaos Koletsis | Biochemistry | Best Researcher Award

Published on by Analytical Chemistry

Mr. Nikolaos Koletsis | Biochemistry | Best Researcher Award

National and Kapodistrian University of Athens | Greece

Nikolaos E. Koletsis is a chemist with a Master of Science in Applied Biochemistry from the University of Patras and a Bachelor of Science in Chemistry from the University of Ioannina. His academic and research background is grounded in molecular and cellular biochemistry, with a particular emphasis on cancer biology, extracellular matrix (ECM) dynamics, and the development of three-dimensional (3D) cell culture models. During his MSc research at the Laboratory of Biochemistry, University of Patras, he investigated the functional properties and differential expression of key ECM components in 3D breast cancer spheroids. His work integrated advanced biochemical techniques including 3D cell culture, gene expression analysis (qPCR), HPLC, ELISA, electrophoresis, and statistical methodologies such as T-test and ANOVA. This project has culminated in both national and international presentations, and a first-author publication in Cells. Koletsis also conducted pioneering undergraduate research at the University of Ioannina, synthesizing novel alkaline earth metal-organic frameworks (MOFs) with potential applications in biodiesel catalysis. This work led to the identification of a new magnesium-glycerol complex, a structure reported for the first time in literature. He has co-authored three peer-reviewed journal articles indexed in Scopus, which have collectively received 15 citations, and he currently holds an h-index of 1. His publications appear in respected journals such as Cells, FEBS Journal, and Archives of Medical Science – Atherosclerotic Diseases, reflecting the interdisciplinary and impactful nature of his work. In addition to his lab-based expertise, Koletsis is adept in scientific writing, data analysis, and conference presentations, demonstrating a clear capacity for translating experimental data into meaningful scientific contributions. His career interests lie at the intersection of biomedical research, applied sciences, and translational innovations in cancer and materials chemistry.

Profiles : Scopus | Orcid

Featured Publications

  • Koletsis, N. E., Mangani, S., Franchi, M., Piperigkou, Z., & Karamanos, N. K. (2025). Development, functional characterization, and matrix effectors dynamics in 3D spheroids of triple-negative breast cancer cells. Cells, 14(17), 1351.

  • Anagnostopoulos, S., Baltayiannis, N., Koletsis, N. E., et al. (2025). 3D printing in medicine: Bridging imaging, education, and practice. Archives of Medical Science – Atherosclerotic Diseases, 10(1), 172–188.

  • Mangani, S., Piperigkou, Z., Koletsis, N. E., Ioannou, P., & Karamanos, N. K. (2024). Estrogen receptors and extracellular matrix: The critical interplay in cancer development and progression. FEBS Journal.

  • Piperigkou, Z., Mangani, S., Koletsis, N. E., Koutsakis, C., Mastronikolis, N. S., Franchi, M., & Karamanos, N. K. (2025). Principal mechanisms of extracellular matrix-mediated cell–cell communication in physiological and tumor microenvironments. FEBS Journal.

 

Si Mengting | Environmental Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Si Mengting | Environmental Chemistry | Best Researcher Award

Yangtze University | China

Dr. Mengting Si is an Associate Professor at the School of Petroleum Engineering, Yangtze University, China. She earned her Ph.D. and M.S. from the School of Energy and Power Engineering at Huazhong University of Science and Technology, and her B.Sc. in Automotive Engineering from Jilin University. Her research focuses primarily on carbon capture, utilization and storage (CCUS), and soot formation during fossil fuel combustion, particularly leveraging hyperspectral imaging and optical diagnostic techniques. Dr. Si has a strong research track record, having authored 31 publications indexed in Scopus, which have collectively received 396 citations across 357 documents, reflecting an h-index of 11. She has secured multiple prestigious research grants, including two as Principal Investigator from the National Natural Science Foundation of China, and one from the State Key Laboratory of Coal Combustion. Her work has appeared in top-tier journals such as Combustion and Flame, Renewable Energy, and Applied Optics. In addition to her publications, she has contributed to several national-level collaborative research projects and holds one Chinese patent. Dr. Si’s research has also been presented at leading academic conferences, including the International Pittsburgh Coal Conference and the Annual Conference of the Chinese Society of Engineering Thermophysics. Her contributions to combustion diagnostics and emissions control have earned her multiple awards, including the 1st Prize for Scientific and Technological Progress in Petroleum and Chemical Automation and the 3rd Prize of Natural Science of Hubei Province. Dr. Si continues to advance cleaner combustion technologies and sustainable energy research.

Profiles : Scopus | Research Gate

Featured Publications

  • Si, M., Liu, J., Zhang, Y., Liu, B., Luo, Z., & Cheng, Q. (2024). Effect of co-combustion of coal with biomass on the morphology of soot. Renewable Energy, 226, 120374.

  • Si, M., Liu, J., Chang, K., Zhang, Y., Luo, Z., & Cheng, Q. (2024). Evolution of physicochemical characteristics of soot in a single coal combustion flame. Combustion and Flame, 260, 113243.

  • Si, M., Cheng, Q., Yuan, L., Zhang, Y., & Luo, Z. (2022). Study on the combustion behavior of single coal particle using a thermal-imaging technique. Combustion and Flame, 242, 112178.

  • Si, M., Cheng, Q., Yuan, L., Luo, Z., Xu, Z., & Zhao, H. (2022). Physical and chemical characterization of two kinds of coal-derived soot. Combustion and Flame, 238, 111759.

  • Si, M., Cheng, Q., Yuan, L., Luo, Z., Yan, W., & Zhou, H. (2021). Study on combustion behavior and soot formation of single coal particle using hyper-spectral imaging technique. Combustion and Flame, 233, 111568.

 

Myrtil Kahn | Coordination Chemistry | Best Researcher Award

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Dr. Myrtil Kahn | Coordination Chemistry | Best Researcher Award

CNRS | France

Profiles

Scopus
Orcid

Early Academic Pursuits

Dr. Myrtil L. Kahn began her academic journey with a PhD in molecular compounds, under the supervision of a renowned expert in the field of coordination chemistry. Her doctoral work laid a strong foundation in molecular chemistry, which she later expanded into interdisciplinary domains. Her postdoctoral research included advanced work on ferrite nanoparticles and intermetallic particles, which positioned her at the intersection of nanoscience, materials chemistry, and applied physics.

Professional Endeavors

Following her postdoctoral experience, Dr. Kahn joined CNRS and quickly rose through the ranks to become a Senior Scientist and Research Director. She currently leads the “Nano-chemistry, Organization, and Sensors” team at the Laboratory of Coordination Chemistry (LCC) and also co-directs a multidisciplinary research initiative in collaboration with another leading national laboratory. This joint effort culminated in the establishment of a CNRS-affiliated joint research laboratory, reflecting her leadership in managing strategic partnerships with key industrial and governmental stakeholders, including aerospace and space agencies.

Contributions and Research Focus

Dr. Kahn’s research centers on nanoscience and its application to broad societal challenges such as energy, environment, space, aeronautics, and health. She has significantly contributed to the design and synthesis of hybrid nano-objects and multifunctional coatings. Her work focuses on controlling the structural and functional properties of nanoparticles particularly semiconductor and magnetic oxides and integrating them into real-world devices. Utilizing a safe-by-design philosophy, she innovates at the interface of molecular chemistry, surface science, and nanotechnology. Her research also emphasizes understanding surface-ligand interactions through advanced techniques like NMR spectroscopy, which is crucial for ensuring colloidal stability and optimizing material behavior in biological and industrial environments.

Impact and Influence

Dr. Kahn has established herself as a leader in applied nanosciences, successfully bridging fundamental chemistry with device integration. Her research has attracted substantial funding through over thirty competitive contracts, nearly half of which involve industrial collaborations. These projects have led to multiple patents with international extensions, showcasing her commitment to innovation and knowledge transfer. Beyond scientific output, her leadership in organizing large-scale conferences and her role in interdisciplinary teams underscore her influence across both academic and industrial landscapes.

Academic Citations

Her research excellence is reflected in her strong citation metrics. With thousands of citations and an impressive h-index, her work enjoys sustained recognition in the global scientific community. She has authored more than a hundred publications in peer-reviewed international journals, contributed to several book chapters, and is actively involved in reviewing and editorial responsibilities within leading scientific events and journals.

Technical Skills

Dr. Kahn possesses deep technical expertise in organometallic synthesis, nanoparticle surface chemistry, colloidal stability, and functional coatings. She has extensive experience in spectroscopic analysis, particularly NMR, for the investigation of ligand dynamics and surface coordination. Her proficiency extends to hybrid material fabrication, integration of nanoparticles into sensors and devices, and the development of safe-by-design methodologies. This multidisciplinary toolkit enables her to work effectively at the interface of chemistry, physics, and biology.

Teaching Experience

While her primary role is research-intensive, Dr. Kahn actively contributes to mentoring young researchers and postdoctoral fellows. She fosters scientific development through collaborative research, co-authorship, and direct supervision. Her mentorship style is marked by encouraging innovation and interdisciplinary approaches, preparing early-career scientists for careers in both academia and industry.

Legacy and Future Contributions

Dr. Kahn’s legacy is one of impactful science, interdisciplinary collaboration, and societal relevance. Her commitment to applied nanoscience has led to the development of novel materials and processes with potential applications in biotechnology, aerospace, and environmental technology. As co-director of a cutting-edge joint research lab, she continues to expand her collaborative reach, ensuring that her contributions influence the next generation of researchers. Her ongoing projects in multifunctional nanocomposites and hybrid processes promise continued breakthroughs in high-performance materials.

Notable Publications

Competition between ordered morphologies of functionalized silver nanoparticles elucidated by a joint experimental and multiscale theoretical study

Authors: David Loffreda; Nathalie Tarrat; Corinne Lacaze‑Dufaure; Franck Rabilloud; Katia Fajerwerg; Myrtil L. Kahn; Vincent Collière; Christine Lepetit; Pierre Fau
Journal: Nano Today
Year: 2025

Understanding Ion‑Exchange Processes in the Synthesis of ZnSₓ@ZnO₁₋ₓ Heterostructures from Controlled Sulfidation of ZnO Nanocrystals

Authors: Ekaterina Bellan; Martin Jakoobi; Vincent Collière; Yannick Coppel; Julien Trébosc; Olivier Lafon; Pierre Lecante; Paul Fleurat‑Lessard; Céline Dupont; Jean‑Cyrille Hierso; Pierre Fau; Katia Fajerwerg; Lauriane Pautrot‑d’Alençon; Thierry Le Mercier; Myrtil L. Kahn
Journal: Chemistry of Materials
Year: 2024

Spontaneous Emulsification of Organometallic Complexes Applied to the Synthesis of Nanocapsules Active for H₂ Release from Ammonia‑Borane

Authors: Olivier Gazil; Ludivine Rault; Déborah Iglicki; Vincent Collière; Gizem Karacaoglan; Didier Poinsot; Moad Bouzid; Jean‑Cyrille Hierso; Myrtil L. Kahn; Nick Virgilio; Fabienne Gauffre
Journal: Langmuir (The ACS Journal of Surfaces and Colloids)
Year: 2024

Synthesis of TiO₂/SBA‑15 Nanocomposites by Hydrolysis of Organometallic Ti Precursors for Photocatalytic NO Abatement

Authors: Ons El Atti; Julie Hot; Katia Fajerwerg; Christian Lorber; Bénédicte Lebeau; Andrey Ryzhikov; Myrtil L. Kahn; Vincent Collière; Yannick Coppel; Nicolas Ratel‑Ramond; Philippe Ménini; Pierre Fau
Journal: Inorganics
Year: 2024

Conclusion

Dr. Myrtil L. Kahn stands as a prominent figure in nanoscience and coordination chemistry. Her pioneering research, strong industrial collaborations, and leadership in both national and international scientific communities demonstrate her eligibility for high-level scientific honors. Through her interdisciplinary vision and dedication to real-world impact, she continues to shape the future of materials science and remains an exemplary model for academic and industrial synergy.

 

Neng Yu | Electrochemistry | Sustainable Chemistry Award

Published on by Analytical Chemistry

Assoc. Prof. Dr. Neng Yu | Electrochemistry | Sustainable Chemistry Award

East China University of Technology, China

Profiles

Early Academic Pursuits

Dr. Neng Yu began her academic journey with a strong foundation in Applied Chemistry, which cultivated her multidisciplinary perspective early on. She advanced through postgraduate studies in the same field before pursuing a doctoral degree in Optical Engineering. Her Ph.D. research was carried out at a leading national laboratory for optoelectronics in China, where she was mentored by distinguished faculty. These formative academic experiences shaped her expertise in electrochemistry, materials science, and nanotechnology—critical areas that would define her future research trajectory.

Professional Endeavors

Currently serving as an Associate Professor at East China University of Technology, Dr. Yu is also engaged internationally as a visiting scholar at a prominent Finnish institution. Her cross-border academic collaborations reflect a global outlook on applied physics and advanced materials. Within her home institution, she has spearheaded research in energy storage, battery materials, and flexible electronics, all while contributing actively to institutional research leadership and mentoring initiatives.

Research Focus and Contributions

Dr. Yu’s research centers on electrochemical energy storage systems, with a strong emphasis on aqueous zinc-ion batteries, lithium-ion batteries, and supercapacitors. She has made important contributions to the development of protective layers for zinc metal anodes that facilitate fast ion transfer and reduce dendrite formation. Additionally, she has developed binder-free electrode structures using CoSe₂ for lithium-ion batteries that offer improved electrical and ionic conductivity. Her work in designing flexible and high-performance supercapacitors—including waterproof, fiber-shaped, and stretchable devices—demonstrates her commitment to pioneering next-generation wearable energy technologies.

Funding and Research Leadership

Dr. Yu has consistently secured competitive funding as a principal investigator from national foundations, provincial science and technology departments, and open research platforms. Her research projects span areas such as new energy technologies, polymer nano-fabrication, and advanced energy materials. Her leadership in directing and completing these multidisciplinary projects showcases her ability to translate vision into impactful outcomes.

Impact and Influence

Dr. Yu’s contributions are widely recognized through over 30 scientific publications in high-impact journals such as Advanced Energy Materials and the Journal of Materials Chemistry. With 18 of these as first or corresponding author, she has demonstrated research leadership in both conception and execution. She also holds three authorized Chinese patents, signaling her focus on translating scientific research into practical and scalable innovations. Her work has significantly influenced progress in the fields of battery science and flexible energy systems.

Academic Citations and Recognition

Although specific citation metrics are not detailed, Dr. Yu’s consistent publication in leading international journals, combined with her funded research record, positions her as a respected figure within the scientific community. Her scholarly work continues to be referenced in research related to electrochemistry, nanomaterials, and advanced energy devices.

Technical Proficiency

Dr. Yu possesses a deep command of both synthesis and characterization techniques. She is proficient in material preparation methods such as hydrothermal synthesis, chemical vapor deposition, electrochemical deposition, anodic oxidation, and atomic layer deposition. Her analytical capabilities include techniques like XRD, SEM, TEM, XPS, AFM, and UV-Vis spectroscopy. She is also adept in the use of advanced electrochemical instrumentation including Autolab, PARSTAT 4000, CHI workstations, and LAND battery testing systems.

Scientific Communication and Computing

Dr. Yu is well-versed in scientific writing, peer review, and oral communication in English, which she employs effectively in both publishing and collaboration. Her computer literacy extends to software used for document preparation, data visualization, and image processing, such as Microsoft Office, 3D MAX, and Photoshop—tools that enhance the clarity and professional presentation of her research output.

Teaching and Mentorship

Beyond research, Dr. Yu has dedicated significant effort to teaching and mentoring. She has guided several student teams through innovation and entrepreneurship programs, both at national and provincial levels. Through these initiatives, she fosters research aptitude, creativity, and critical thinking in young scholars, reflecting her strong commitment to educational development and student success.

Legacy and Future Contributions

Dr. Yu continues to push boundaries in sustainable and flexible energy storage technologies. Her ongoing projects are aligned with global demands for environmentally friendly and portable energy solutions. As her career evolves, she is positioned to shape the future of energy materials through scientific innovation, interdisciplinary collaboration, and academic mentorship. Her legacy will be characterized by practical solutions grounded in strong scientific principles and a dedication to empowering the next generation of researchers.

Notable Publications

In situ electrochemical activation enabling high-performance cathodes for aqueous zinc-ion batteries
Authors: Qingpu Zeng, Shitong Zhou, Neng Yu*, Jiachen Huo, Changfang Sun, Kai Guo*
Journal: Journal of Materials Chemistry A
Year: 2025

Engineering aqueous electrolytes with a trifunctional additive for robust zinc anodes across a wide temperature range
Authors: Neng Yu, Shiya Lin, Shitong Zhou, Ye Li, Jiating Li, Qingpu Zeng, Lu Chen, Lei Wang, Kai Guo*, Xianfu Wang*, Yiju Li*
Journal: Energy Storage Materials
Year: 2025

Dual-function additive for simultaneously boosting the stability and energy density of aqueous zinc ion hybrid capacitors
Authors: Kai Guo, Jiating Li, Shiya Lin, Lu Chen, Neng Yu*, Yiju Li*
Journal: Chinese Chemical Letters
Year: 2025

Metallic Vanadium Activated by In-Situ Dissolution-Deposition Process for Superior Aqueous Zinc Ion Battery Cathode
Authors: Kai Guo, Ye Li, Changchen Yang, Yijing Xiang, Shanqi Pan, Qingpu Zeng, Zhuyao Li, Neng Yu*, Xianfu Wang*
Journal: Chemical Communications
Year: 2025

Highly Reversible Zinc Anode Enabled by Trifunctional Diethylenetriaminepentaacetic Acid Additive
Authors: Shiya Lin, Wang Zhao, Yisha Guo, Neng Yu*, Kai Guo*, Xianfu Wang*
Journal: ACS Energy Letters
Year: 2024

Shufeng Pang | Physical Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Shufeng Pang | Physical Chemistry | Best Researcher Award

Beijing Institute of Technology, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Prof. Shufeng Pang began his academic journey with a Ph.D. in Chemistry from Nanjing University (1998–2000), where he conducted spectroscopic studies on Langmuir-Blodgett (LB) film structures. His early work laid the foundation for a multidisciplinary research career combining surface science, colloidal chemistry, and environmental studies.

🧪 Professional Endeavors

After completing his Ph.D., he pursued postdoctoral research at the Institute of Chemistry, Chinese Academy of Sciences (2001–2003), focusing on structural investigations of colloidal systems. He then expanded his research internationally as a Research Associate at the Tokyo University of Science, Japan (2003–2005), working on surface modification and self-assembly behavior of gold nanoparticles. Since 2005, he has been serving as an Associate Professor at the Beijing Institute of Technology, where his recent research centers on the physical and chemical properties of atmospheric aerosols.

🔬 Contributions and Research Focus

Prof. Pang has made notable contributions in nanoparticle synthesis, interfacial modification, and atmospheric aerosol chemistry. He developed asymmetric surface-modified gold nanoparticles through interfacial techniques and explored their aggregation and ordered assembly. His studies on aerosol systems revealed critical insights into the hygroscopicity of inorganic/organic salts, intraparticle chemical processes, and gas-particle interactions. One of his most significant findings was the discovery of a humidification-induced phase transition in mixed aerosols containing polyhydroxy organic acids and inorganic salts, which offered a mechanistic explanation for component redistribution in atmospheric particles.

🧠 Research Projects and Collaborations

As Principal Investigator, Prof. Pang has led three NSFC-funded research projects. Project No. 20603002 focused on the synthesis and self-assembly of Janus nanoparticles. Project No. 21373026 explored the in-situ observation of new particle formation and aerosol growth using FTIR spectroscopy. Project No. 91644101 investigated the burst and growth of new particles as influenced by ambient relative humidity through FTIR techniques. He collaborates with Prof. Yunhong Zhang in conducting advanced spectroscopic studies on aerosols.

🌍 Impact and Influence

Prof. Pang’s work has important implications for understanding urban air pollution and atmospheric chemistry. His investigation into copper-catalyzed SO₂ oxidation by NO₂ within aerosols and the resulting sulfate formation has contributed to the field of environmental science. His studies aid in pollution modeling, aerosol transformation mechanisms, and the evaluation of climate-related aerosol effects.

📚 Academic Citations and Recognition

Although specific citation counts were not detailed, Prof. Pang’s research—particularly in aerosol spectroscopy and nanomaterials—has gained significant traction in the scientific community, especially among those focused on air quality, environmental chemistry, and nanoparticle behavior.

🛠️ Technical Skills

He possesses strong technical expertise in FTIR spectroscopy, colloidal and interfacial chemistry, Langmuir-Blodgett film techniques, gold nanoparticle synthesis, and the structural characterization of aerosols. His proficiency in in-situ analysis makes him a leader in observing real-time chemical processes in atmospheric systems.

👨‍🏫 Teaching and Mentorship

At Beijing Institute of Technology, Prof. Pang has consistently merged research with education, mentoring undergraduate and graduate students in physical chemistry, spectroscopy, and atmospheric research. His practical guidance and academic supervision have contributed to the development of many young scientists.

🌟 Legacy and Future Contributions

Prof. Pang aims to continue advancing the understanding of aerosol dynamics and their impact on climate and air quality. His future research will likely emphasize interdisciplinary approaches to atmospheric chemistry and nanoscience, making vital contributions to environmental policy, sustainable development, and academic innovation. His career reflects a dedication to both fundamental research and applied science, positioning him as a distinguished figure in modern physical and environmental chemistry.

📖Notable Publications

Sulfate formation through copper-catalyzed SO2 oxidation by NO2 at aerosol surfaces

  • Authors: P. Liu, Y. Liu, Q. Huang, Y. Zhang, M. Ge

  • Journal: npj Climate and Atmospheric Science

  • Year: 2025

Hydrogel network formation triggers atypical hygroscopic behavior in atmospheric aerosols

  • Authors: F. Dong, Q. Huang, S. Pang, Y. Zhang

  • Journal: Science of the Total Environment

  • Year: 2024

The interplay between aqueous replacement reaction and the phase state of internally mixed organic/ammonium aerosols

  • Authors: H. Yang, F. Dong, L. Xia, S. Pang, Y. Zhang

  • Journal: Atmospheric Chemistry and Physics

  • Year: 2024

Rethinking urban haze formation: Atmospheric sulfite conversion rate scales with aerosol surface area, not volume

  • Authors: L. Li, P. Liu, Q. Huang, Y. Zhang, M. Ge

  • Journal: One Earth

  • Year: 2024

Compositional evolution for mixed aerosols containing gluconic acid and typical nitrate and the effect of multiply factors on hygroscopicity

  • Authors: Y. Zhu, S. Pang, Y. Zhang

  • Journal: Journal of Environmental Sciences

  • Year: 2024

Single Droplet Tweezer Revealing the Reaction Mechanism of Mn(II)-Catalyzed SO2 Oxidation

  • Authors: X. Cao, Y. Liu, Q. Huang, Y. Zhang, M. Ge

  • Journal: Environmental Science and Technology

  • Year: 2024

Shiyuan Dong | Spectroscopy | Best Researcher Award

Published on by Analytical Chemistry

Mr. Shiyuan Dong | Spectroscopy | Best Researcher Award

Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Shiyuan Dong hails from Liaocheng City, Shandong Province. He completed his undergraduate studies in Electrical Engineering and Automation (Motors and Electrical Appliances) at Qingdao University. He later pursued a Master’s degree in Optical Engineering with a focus on Fiber Optic Sensing Technology at the School of Physics and Electronic Engineering, Chongqing Normal University. During his academic training, he was jointly mentored at the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences (SIAT, CAS), and the Institute of Integrated Circuits under the guidance of Xu Tiantian-Youqing and Yi Zhengkun-Haiyou. Dong has consistently maintained an excellent academic record, including a GPA of 87.86/3.82, and passed the CET-6 English exam, enabling him to effectively read and write professional scientific literature.

🧪 Professional Endeavors

Mr. Dong currently works in the Fiber Optic Sensing Laboratory at SIAT, CAS, where he is responsible for distributed fiber optic acoustic wave sensing detection experiments in extreme environments. He plays a key role in sensor development, including the design, testing, and calibration of fiber optic force and shape sensors. In addition, he contributes to project application writing and comprehensive project management, including stages such as application, mid-term evaluation, and final acceptance. His responsibilities also include constructing and debugging various experimental platforms involving fiber optic sensors.

🔬 Contributions and Research Focus

Dong’s core research focuses on fiber optic sensing, tactile sensors, and medical robots. Among his most notable achievements is his work on a miniature force sensor for the tip of a flexible ureteroscope and the development of a multifunctional magnetic catheter robot with triaxial force sensing capability for minimally invasive surgery. He has also worked on advanced topics like low-loss high-birefringence anti-resonant optical fiber structures, HC-ARFs geometric modeling, and GaAs fiber-optic temperature sensing.

🌍 Impact and Influence

Dong has garnered significant recognition in the optics and photonics communities. He has received multiple Outstanding Poster Awards at national academic leagues and forums. His poster work has earned distinction at high-level conferences, such as the National Optics and Optical Engineering Doctoral Academic League and the China Optical Society Graduate Student Forum. He has presented reports at forums like the Academic Forum on Biomedical Photonics Cross-integration and the Optoelectronics Global Conference.

📚 Academic Citations and Publications

Dong has published as first author in prestigious journals such as the IEEE Transactions on Instrumentation and Measurement (CAS Region 2 Top, JCR Q1, IF=5.6) and the Journal of Lightwave Technology (CAS Zone 1 Top, JCR Q1, IF=4.1). He is also a second author on publications in the IEEE Sensors Journal (JCR Q1, IF=4.3) and Journal of Lightwave Technology. He has contributed as a reviewer for journals like IEEE Transactions on Industrial Electronics.

🛠️ Technical Skills

Shiyuan Dong possesses advanced capabilities in mechanical structure design and simulation, proficient in tools such as SolidWorks, ANSYS, and COMSOL. His data analysis and visualization expertise extends to Python (with neural networks and deep learning), MATLAB, and Origin. He also holds a Welding Skills Certificate and has been actively involved in sensor calibration, demodulation method design, and statistical modeling.

👨‍🏫 Teaching and Leadership

Dong’s leadership in science and technology has been recognized by his university’s Communist Youth League Committee and the Chongqing Municipal Education Commission. He has won awards such as the Outstanding Graduate Student Award, Postgraduate Scholarship, and the May 4th Award. In addition to research, he has contributed to academic communities by mentoring peers, organizing reports, and serving as an exhibitor and guest speaker at several national and international events.

🌟 Legacy and Future Contributions

Mr. Dong has been the first or co-inventor of several Chinese invention patents, including innovations in force sensors, decoupling methods, and magnetic catheter robots. His ongoing collaborations span institutions such as the Chinese University of Hong Kong and Fudan University, as well as companies like Fujikura (China) and Lingyun Technology. He is committed to advancing the field of optical engineering with a focus on intelligent medical systems and photonic technologies, and his trajectory indicates a promising future as a leading innovator in fiber optic sensing and minimally invasive medical devices.

📖Notable Publications

  • Title: Recent advances of bifunctional electrocatalysts and electrolyzers for overall seawater splitting
    Authors: X. Wang, M. Geng, S. Sun, Q. Xiang, S. Dong, K. Dong, Y. Yao, Y. Wang, …
    Journal: Journal of Materials Chemistry A, 12 (2), 634–656
    Year: 2024

  • Title: Exhaustive design and statistical analysis of hc-arfs based on geometric modeling
    Authors: Z. Liu, S. Dong, L. Zhang, H. Liu, Z. Zhou, Y. Dong, T. Yang
    Journal: Journal of Lightwave Technology
    Year: 2024

  • Title: A high-precision miniature triaxial FBG force sensor for detecting tissue anomalies
    Authors: S. Dong, Z. Liu, Y. Lou, D. Luo, J. Wu, B. Yang, H. Liu, T. Yang, Y. Dong
    Journal: Journal of Lightwave Technology
    Year: 2024

  • Title: Miniature FBG force sensor capable of effectively resisting lateral forces
    Authors: S. Dong, X. Zhang, Y. Lou, D. Luo, J. Wu, R. Tao, H. Liu, T. Yang, Y. Dong
    Journal: Optics Express, 33 (4), 6581–6596
    Year: 2025

  • Title: Fiber Bragg grating-based temperature-compensated force sensor development for minimally invasive surgery
    Authors: S. Dong, T. Yang, Y. Lou, X. Wan, Z. Liu, T. Xi, J. Wu, Y. Dong
    Journal: AOPC 2023: Optic Fiber Gyro, Vol. 12968, pp. 347–355
    Year: 2023

  • Title: A Miniaturized FBG Tactile Sensor for the Tip of a Flexible Ureteroscope
    Authors: S. Dong, S. Ma, T. Zhou, Y. Lou, X. Xiong, K. Wei, D. Luo, J. Wu, H. Liu, R. Tao, …
    Journal: Sensors, 25 (9), 2807
    Year: 2025

 

Prof. Huilan Yue | Organic Chemistry | Best Researcher Award

Published on by Analytical Chemistry

Prof. Huilan Yue | Organic Chemistry | Best Researcher Award

Northwest Institute of Plateau Biology, CAS, China

👨‍🎓Profiles

🎓 Education and Academic Background

Prof. Huilan Yue pursued her Ph.D. in Catalytic Chemistry from the Chengdu Institute of Biology, Chinese Academy of Sciences, under the guidance of Prof. Jian-Xin Ji. Her dissertation focused on C-C bond formation through the direct reaction of alcohols with alkenes and alkynes. Before that, she completed her M.S. in Phytochemical studies at the Northwest Institute of Plateau Biology, Chinese Academy of Sciences, where she researched the chemical constituents of Dracocephalum heterophyllum Benth. under the supervision of Prof. Yun Shao. Her academic journey began with a B.S. in Biological Sciences from Huaibei Normal University.

🏛 Professional Career

Prof. Yue is currently affiliated with the Northwest Institute of Plateau Biology, Chinese Academy of Sciences, China. She has dedicated her career to advancing catalytic chemistry and phytochemical studies, contributing significantly to understanding chemical synthesis and natural product chemistry. Her work is recognized for its interdisciplinary approach, bridging chemistry and biology to explore novel catalytic mechanisms and bioactive compounds.

🏆 Honors and Awards

Prof. Yue has received numerous accolades for her contributions to science and technology. She was honored as a Kunlun Talent Leading Talent in Qinghai Province. She also received the Qinghai Province Youth Science and Technology Award, recognizing her outstanding contributions to research. She was awarded the prestigious “Light of the West” honor from the Chinese Academy of Sciences. Additionally, she has been recognized as a Leading Talent in Natural Science and Engineering Technology Disciplines in Qinghai Province and a Top-notch Innovative Talent in Qinghai Province.

🔬 Research Contributions and Focus

Prof. Yue’s research primarily focuses on catalytic chemistry, organic synthesis, and natural product chemistry. Her work on C-C bond formation via direct reactions of alcohols with alkenes and alkynes has contributed to advancements in green chemistry and sustainable synthesis. Additionally, her research in phytochemistry has led to the discovery and characterization of bioactive compounds from plateau plants, contributing to medicinal and pharmaceutical sciences.

🌍 Impact and Influence

Prof. Yue’s research has had a profound impact on both theoretical and applied chemistry. Her contributions to catalytic reactions have paved the way for more efficient and environmentally friendly synthesis methods, while her phytochemical studies have provided valuable insights into natural product-based drug discovery. Her work has been widely cited and acknowledged in the scientific community, reinforcing her influence in the field of chemistry and biological sciences.

📖 Academic Citations and Recognition

As a leading researcher, Prof. Yue’s work has been published in high-impact scientific journals, earning significant citations. Her studies on catalytic mechanisms and phytochemical discoveries continue to be referenced by researchers in organic chemistry, medicinal chemistry, and natural product research.

🛠 Technical Expertise

Prof. Yue’s expertise spans several key areas, including:

  • Catalytic chemistry and organic synthesis

  • Green chemistry and sustainable catalytic processes

  • Phytochemical analysis and natural product extraction

  • Spectroscopic techniques for chemical characterization

  • Drug discovery and bioactive compound development

👩‍🏫 Teaching and Mentorship

Beyond her research, Prof. Yue is dedicated to mentoring young scientists and researchers in the fields of chemistry and biology. She plays an active role in training postgraduate students, guiding them in experimental research, and fostering critical thinking in scientific exploration.

🚀 Legacy and Future Contributions

Prof. Yue’s ongoing research aims to further the development of sustainable catalytic processes and the discovery of novel bioactive compounds from plateau plants. Her future work will continue to integrate chemistry and biology to address challenges in pharmaceuticals, environmental sustainability, and synthetic chemistry. As a leader in her field, she remains committed to pushing the boundaries of chemical research and contributing to scientific advancements for societal benefit.

📖Notable Publications

  • Additive-free synthesis of β-keto phosphorodithioates via geminal hydro-phosphorodithiolation of sulfoxonium ylides with P₄S₁₀ and alcohols

    • Authors: Jindong Hao, Yufen Lv, Shuyue Tian, Wei Wei, Dong Yi, et al.

    • Journal: Chinese Chemical Letters

    • Year: 2024

  • Metal-free visible-light-mediated aerobic nitrooxylation for the synthesis of nitrate esters with t-BuONO

    • Authors: Yufen Lv, Jindong Hao, Jian Huang, Wei Wei, Dong Yi, et al.

    • Journal: Chemical Communications

    • Year: 2024

  • Visible-Light Photoredox-Catalyzed Difunctionalization of Alkynes with Quinoxalin-2(1H)-Ones, P₄S₁₀, and Alcohols

    • Authors: Lianhui Song, Chao Ma, Jian Huang, Wei Wei, Dong Yi, et al.

    • Journal: Journal of Organic Chemistry

    • Year: 2024

  • Characterization of alkaloids and phenolics in Nitraria roborowskii Kom. fruit by UHPLC-triple-TOF-MS/MS and its sucrase and maltase inhibitory effects

    • Authors: Di Wu, Sirong Jiang, Gongyu Wang, Xiaohui Zhao, Huilan Yue, et al.

    • Journal: Food Chemistry

    • Year: 2024

  • Extract of Silphium perfoliatum L. improves lipid accumulation in NAFLD mice by regulating AMPK/FXR signaling pathway

    • Authors: Jiyu Xu, Wenjiang Jing Jia, Guoying Zhang, Dejun Zhang, Xiaohui Zhao, et al.

    • Journal: Journal of Ethnopharmacology

    • Year: 2024

 

Samreen Ghulam Rasool | Chromatography | Best Researcher Award

Published on by Analytical Chemistry

Dr. Samreen Ghulam Rasool | Chromatography | Best Researcher Award

East China Normal University, Pakistan

👨‍🎓Profiles

🌱 Early Academic Pursuits

Samreen Ghulam Rasool began her academic journey with a strong foundation in agricultural sciences, focusing on plant-plant interactions. Her M.Sc. (Hons.) research explored the dynamics of foliar-applied mepiquat chloride in cotton under different sowing techniques, providing insights into growth regulation and optimization in cotton farming. This early academic work laid the foundation for her future research in plant ecology and sustainable agriculture.

🏛️ Professional Endeavors

Currently affiliated with East China Normal University, China, Dr. Rasool has dedicated her career to studying ecological responses in plant communities. Her doctoral research examined the chemical and ecological responses of herbaceous plant species interacting with diverse neighbors under heterogeneous conditions, addressing critical challenges in biodiversity conservation and sustainable crop production. She is actively engaged in international collaborations and research projects, contributing to ecological sustainability on a global scale.

🔬 Contributions and Research Focus

Dr. Rasool’s research primarily revolves around plant-plant interactions and their role in mitigating the risks associated with monoculture plantations. Her focus areas include:
✅ Integrated Weed Management Strategies – Developing innovative approaches to control weed infestations in crops.
✅ Enhancement in Crop Productivity – Implementing advanced techniques to maximize agricultural yield.
✅ Sustainable Crop Production – Promoting eco-friendly practices to ensure long-term agricultural sustainability.

Her research projects have received funding from prestigious institutions, including:
📌 Young Scientist Exchange for One Belt and One Road Strategy – Shanghai Science and Technology Commission.
📌 Technology Innovation Center for Land Spatial Eco-Restoration in Metropolitan Areas – Ministry of Natural Resources.
📌 National Key R&D Program of China – Grant Numbers: 2017 YFC 0506002, 2016 YFC 0503102.
📌 State Key Program of the National Natural Science Foundation of China – Grant Number: 32030068.

🌍 Impact and Influence

Dr. Rasool’s work has contributed significantly to understanding ecological interactions among plants, particularly in the context of sustainable agriculture. Her studies help reduce environmental degradation caused by monoculture farming, advocating for diverse cropping systems to enhance biodiversity. Her research plays a pivotal role in shaping policies and best practices for sustainable land use and crop management.

📖 Academic Citations and Publications

Dr. Rasool has made valuable contributions to scientific literature, with:
📚 4 SCI/Scopus-indexed journal publications, showcasing her expertise in plant ecology.
🔬 2 patents, reflecting her innovative approach to sustainable crop production.

🛠️ Technical Skills

Dr. Rasool possesses advanced expertise in:
🔹 Ecological Data Analysis – Assessing plant interactions and their effects on productivity.
🔹 Crop Physiology Techniques – Enhancing plant growth through chemical applications.
🔹 Sustainable Agriculture Practices – Implementing eco-friendly farming techniques.

🎓 Teaching Experience

Dr. Rasool actively engages in academia by mentoring young researchers and guiding them in the field of crop science, ecological restoration, and plant interactions. Her contributions to integrated weed management strategies and sustainable crop production have influenced students and fellow researchers alike.

🌟 Legacy and Future Contributions

With an unwavering commitment to plant ecology and sustainable agriculture, Dr. Rasool envisions a future where scientific advancements contribute to ecological balance and food security. Her research aims to develop innovative strategies for sustainable farming, biodiversity conservation, and climate-resilient agriculture. Through her ongoing research collaborations, publications, and patents, she continues to be a driving force in ecological innovation and plant science.

📖Notable Publications

Herbaceous competition does not affect positive tree diversity effects on seedling crown complementarity

Authors: Samreen Ghulam Rasool

Journal: Forest Ecology and Management

Year: 2025

Do proportions of rooting ramets in the clone affect the overall growth of the stoloniferous clonal plant Zoysia japonica?

Authors: Samreen Ghulam Rasool

Journal: Plant Species Biology

Year: 2024

Relationship between secondary metabolites and insect loads in cabbage with different leaf shapes and positions

Authors: Samreen Ghulam Rasool

Journal: Phytochemicals Analysis

Year: 2024

Pattern of soil extracellular enzyme activities along a tidal wetland with mosaic vegetation distributions in Chongming Island, China

Authors: Samreen Ghulam Rasool

Journal: Journal of Cleaner Production

Year: 2021

 

Eugene Mananga | Nuclear Magnetic Resonance | Best Researcher Award 1739

Published on by Analytical Chemistry

Prof. Dr. Eugene Mananga | Nuclear Magnetic Resonance (NMR) | Best Researcher Award

The City University of New York United States

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Eugene Stéphane Mananga began his academic journey in Cameroon, where he demonstrated exceptional talent in physics and mathematics. He completed his B.Sc. in Physics/Chemistry from the University of Yaoundé in 1990, ranking among the top 5% of his class. He continued his studies, earning an M.Sc. in Physics (1991) and a DEA in Physics (1992), securing first rank. His academic curiosity led him to pursue a Doctorate in Mechanics - Solitons (1992-94), though he did not defend his thesis. His academic ambitions took him to The City University of New York (CUNY), where he earned multiple advanced degrees, including an M.A. in Physics (2002), an M. Phil. in Physics (2004), and a Ph.D. in Physics (2005) under the mentorship of Distinguished Professor Steven G. Greenbaum. His doctoral research set the stage for groundbreaking work in nuclear magnetic resonance (NMR) and condensed matter physics.

🏛️ Professional Endeavors

Dr. Mananga has held prestigious positions at Harvard University, MIT, CUNY, New York University (NYU), and Brookhaven National Laboratory, contributing significantly to medical physics, solid-state NMR, and nuclear medicine. He has been a:

Postdoctoral Fellow at Harvard Medical School (2011-14) and the Atomic Energy Commission (CEA), France (2009-11), working on neuroimaging and nuclear medicine.

Research Fellow at Massachusetts General Hospital and National High Magnetic Field Lab, specializing in high-field NMR applications.

NSF/AGEP-MAGNET Chancellor Fellow at CUNY (2005-07), demonstrating excellence in research and education.

Dr. Mananga’s interdisciplinary expertise spans across physics, engineering, medical sciences, and sustainability, reflecting his broad academic interests and impact.

🏆 Contributions and Research Focus

Dr. Mananga’s research has significantly advanced solid-state nuclear magnetic resonance (NMR), quantum physics, and medical imaging. He is best known for his work on the Floquet-Magnus expansion, a mathematical technique widely applied in NMR spectroscopy and condensed matter physics. His key contributions include:

Solid-State NMR Spectroscopy: His work on dipolar recoupling techniques has improved signal processing in high-field NMR.

Quantum Physics & Magnonics: He has extended the Floquet-Magnus expansion theory, enabling new applications in quantum mechanics and spintronics.

Medical Imaging & Nuclear Medicine: His research at Harvard Medical School and Massachusetts General Hospital has contributed to better diagnostic imaging techniques in nuclear medicine.

Sustainability & Materials Science: His recent studies at Harvard University (HES, 2022) focus on sustainable materials and their applications in energy storage and green technology.

His ability to bridge physics, engineering, and medicine highlights his interdisciplinary impact on modern science.

🌍 Impact and Influence

Dr. Mananga’s research has led to pioneering advancements in NMR spectroscopy, quantum physics, and medical imaging. His work has been widely cited, influencing scientists, engineers, and medical researchers across disciplines. Some key aspects of his influence include:

Academic Citations & Recognition: His publications, particularly on the Floquet-Magnus expansion and solid-state NMR, have been cited hundreds of times in prestigious journals.

Mentorship & Collaboration: He has collaborated with leading institutions, including Harvard, MIT, CUNY, NYU, and Brookhaven National Laboratory, mentoring students and researchers worldwide.

Technical Contributions: His research has improved NMR techniques, quantum computing principles, and sustainable material applications.

Dr. Mananga’s contributions continue to shape scientific advancements in multiple fields.

🛠️ Technical Skills

Dr. Mananga possesses expertise in advanced scientific techniques, including:

Nuclear Magnetic Resonance (NMR) Spectroscopy

Quantum Physics & Spintronics

Medical Imaging & Nuclear Medicine

Biostatistics & Applied Mathematics

Sustainable Materials & Green Technology

His strong computational and analytical skills allow him to solve complex problems across physics, chemistry, and medical sciences.

📚 Teaching Experience

Dr. Mananga has a strong background in academia, having taught and mentored students at: City University of New York (CUNY), New York University (NYU), Harvard Medical School. His dedication to education has inspired numerous students to pursue careers in physics, engineering, and medical sciences.

🚀 Legacy and Future Contributions

Dr. Mananga’s legacy lies in his ability to integrate physics, medical imaging, and sustainable materials science. His future contributions are expected to:

Advance quantum computing and solid-state NMR spectroscopy

Enhance nuclear medicine techniques for better diagnostics

Promote sustainability in energy storage and materials science

Mentor the next generation of scientists and engineers

His pioneering research and interdisciplinary approach ensure that his work will continue to impact science, technology, and medicine for decades.

📖Notable Publications

Introduction of the Floquet-Magnus expansion in solid-state nuclear magnetic resonance spectroscopy
Authors: ES Mananga, T Charpentier
Journal: The Journal of Chemical Physics, 2011

Facile synthesis of the Basolite F300-like nanoscale Fe-BTC framework and its lithium storage properties
Authors: X Hu, X Lou, C Li, Y Ning, Y Liao, Q Chen, ES Mananga, M Shen, B Hu
Journal: RSC Advances, 2016

High pressure NMR study of water self-diffusion in NAFION-117 membrane
Authors: JRP Jayakody, PE Stallworth, ES Mananga, J Farrington-Zapata
Journal: The Journal of Physical Chemistry B, 2004

On the Floquet–Magnus expansion: Applications in solid-state nuclear magnetic resonance and physics
Authors: ES Mananga, T Charpentier
Journal: Physics Reports, 2016

NMR investigation of water and methanol transport in sulfonated polyarylenethioethersulfones for fuel cell applications
Authors: JRP Jayakody, A Khalfan, ES Mananga, SG Greenbaum, TD Dang
Journal: Journal of Power Sources, 2006

Finite pulse width artifact suppression in spin-1 quadrupolar echo spectra by phase cycling
Authors: ES Mananga, YS Rumala, GS Boutis
Journal: Journal of Magnetic Resonance, 2006

Efficient theory of dipolar recoupling in solid-state nuclear magnetic resonance of rotating solids using Floquet–Magnus expansion: Application on BABA and C7 radiofrequency
Authors: ES Mananga, AE Reid, T Charpentier
Journal: Solid State Nuclear Magnetic Resonance, 2012