Dingqin Hu | Chemistry and Materials Science | Research Excellence Award

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Dr. Dingqin Hu | Chemistry and Materials Science | Research Excellence Award

 City University of Hong Kong | China

Dingqin Hu is an early-career materials and energy researcher specializing in organic photovoltaics and sustainable optoelectronic materials, with research outputs. He received his PhD in Energy Power Engineering from Chongqing University after completing MSc and BSc degrees in Materials Science and Engineering at Sichuan University. His professional experience spans assistant research fellow service at the Chongqing Institute of Green and Intelligent Technology, Chinese Academy of Sciences, and current postdoctoral research at City University of Hong Kong, where his work focuses on scalable fabrication, morphology control, and efficiency–stability trade-offs in organic solar cells. His research interests include non-fullerene acceptors, polymer and small-molecule photovoltaics, ink-state aggregation control, and large-area device manufacturing. He has authored multiple highly cited papers in top journals such as Advanced Materials, Energy & Environmental Science, Joule, and Advanced Science, alongside several national and international patents. His achievements have been recognized through young researcher exchange awards, excellent employee and CPC honors, and first-prize academic paper awards at regional science and technology conferences. Overall, his work contributes significantly to advancing efficient, stable, and industrially viable organic photovoltaic technologies.

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Featured Publications

All-Small-Molecule Organic Solar Cells with an Ordered Liquid Crystalline Donor
H. Chen, D. Hu, Q. Yang, J. Gao, J. Fu, K. Yang, H. He, S. Chen, Z. Kan, et al.
Joule, 2019.

15% Efficiency All-Small-Molecule Organic Solar Cells Enabled by a Fullerene Additive
D. Hu, Q. Yang, H. Chen, F. Wobben, V. M. Le Corre, R. Singh, T. Liu, et al.
Energy & Environmental Science, 2020.

Additive-Induced Miscibility Regulation and Hierarchical Morphology Enable 17.5% Binary Organic Solar Cells
J. Lv, H. Tang, J. Huang, C. Yan, K. Liu, Q. Yang, D. Hu, et al.
Energy & Environmental Science, 2021.

Delicate Morphology Control Triggers 14.7% Efficiency All-Small-Molecule Organic Solar Cells
H. Tang, H. Chen, C. Yan, J. Huang, P. W. K. Fong, J. Lv, D. Hu, et al.
Advanced Energy Materials, 2020.

15% Efficiency All-Small-Molecule Organic Solar Cells Achieved by a Locally Asymmetric F, Cl Disubstitution Strategy
D. Hu, Q. Yang, Y. Zheng, H. Tang, S. Chung, R. Singh, J. Lv, et al.
Advanced Science, 2021.

Pan Li | Chemistry and Materials Science | Best Researcher Award

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Dr. Pan Li | Chemistry and Materials Science | Best Researcher Award

Academy of Military Science of the People’s Liberation Army | China

Li Pan is a PhD candidate and active researcher at the Academy of Military Sciences, specializing in computational and experimental materials science. Her academic training and doctoral education are grounded in advanced materials engineering, with a strong emphasis on first-principles calculations and microstructural analysis of alloys. Through her research experiencez, she has developed a solid theoretical and practical understanding of alloy design, phase stability, and structure–property relationships at the atomic and microstructural scales. Li Pan has authored more than 10 peer-reviewed scientific articles published in high-impact journals, including Nature Communications, reflecting the quality and relevance of her work. In addition to journal articles, she has authored one scholarly monograph, highlighting her ability to synthesize complex scientific knowledge into cohesive academic work. Her research interests include density functional theory, alloy microstructure evolution, and computational materials modeling. She has received academic recognition for her research productivity and innovation during her doctoral studies. Overall, Li Pan represents an emerging scholar in materials science whose work contributes to advancing the fundamental understanding and design of advanced alloy systems.

Profile : Orcid

Featured Publications

Pan, L., Huang, L., Wang, X., Xu, W., Zhou, Y., & Chen, J. (2025). Pressure effect on structural, mechanical, electronic and thermodynamic properties of Cr–Co sigma phase using first-principles method. Philosophical Magazine.

Pan, L., Chen, J., Huang, L., & Zhang, J. (2024). First-principles study of structural, mechanical, electronic properties and Debye temperature of NbCo₂ Laves phases under pressure. Physica B: Condensed Matter, —, 415683.

Pan, L., Chen, J., Huang, L., & Zhang, J. (2023). Site occupancy and electronic properties of NbCo₂ Laves phases doped with Re. Computational and Theoretical Chemistry, —, 114389.

Pan, L., Huang, L., Chen, J., & Zhang, J. (2023). Site occupancy of Ru in μ phases: A density functional theory study. International Journal of Modern Physics B, —, 23502648.

Pan, L., Huang, L., Chen, J., & Zhang, J. (2022). First-principles study of Co₂₁W₁₈ with pressure effect: Structural, mechanical, electronic properties and Debye temperature. Materials Today Communications, —, 104276.

Marius Šumanas | Computer Vision | Best Researcher Award

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Assist. Prof. Dr Marius Šumanas | Computer Vision | Best Researcher Award

Vilnius Tech | Lithuania

Dr. Marius Šumanas is an Associate Professor in the Department of Mechatronics, Robotics, and Digital Manufacturing at Vilnius Gediminas Technical University (VILNIUS TECH).  His research interests encompass robotics, machine learning, and digital manufacturing. Dr. Šumanas has authored several publications, including a study on improving positioning accuracy of articulated robots using deep Q-learning algorithms. He has also participated in various conferences, presenting topics related to machine learning applications in robotics. In addition to his academic roles, Dr. Šumanas has practical experience in the industry. Since 2018, he has been working as a Process Engineer and ERP Systems Business Analyst at MB Pramones algoritmas. He has also held positions in marketing and sales management in previous years. Dr. Šumanas’ work bridges the gap between theoretical research and practical application, contributing to advancements in robotics and digital manufacturing.

Profile : Orcid

Featured Publications

Andrijauskas, I., Šumanas, M., Dzedzickis, A., Tanaś, W., & Bučinskas, V. (2025). Computer vision-based optical odometry sensors: A comparative study of classical tracking methods for non-contact surface measurement. Sensors.

Šumanas, M., Treciokaite, V., Čerškus, A., Dzedzickis, A., Bučinskas, V., & Morkvenaite-Vilkonciene, I. (2022). Sitting posture monitoring using Velostat based pressure sensors matrix. In Smart Sensor Systems (pp. 1–12). Springer.

Bučinskas, V., Dzedzickis, A., Šumanas, M., Sutinys, E., Petkevicius, S., Butkiene, J., Virzonis, D., & Morkvenaite-Vilkonciene, I. (2022). Improving industrial robot positioning accuracy to the microscale using machine learning method. Machines, 10(10), 940.

Šumanas, M., Urbonis, D., Petronis, A., Stankaitis, S., Januškevičius, T., Iljin, I., & Dzedzickis, A. (2021). Evaluation of motion characteristics using absolute sensors. In Advances in Mechatronics and Intelligent Robotics (pp. 1–12). Springer.

Šumanas, M., Petronis, A., Urbonis, D., Januskevicius, T., Rasimavicius, T., Morkvenaite-Vilkonciene, I., Dzedzickis, A., & Bučinskas, V. (2021, April 22). Determination of excavator tool position using absolute sensors. In 2021 Open Conference of Electrical, Electronic and Information Sciences (eStream). IEEE.

Sravya Yelamanchili | Industrial Engineering | Industrial Engineering Award

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Mrs. Sravya Yelamanchili | Industrial Engineering | Industrial Engineering Award

Juniper Elbow Co. Inc | United States

Mrs. Sravya Yelamanchili is an Industrial and Mechanical Engineer with over a decade of hands-on experience in advanced manufacturing especially in the naval and marine systems domain where she has engineered high-integrity marine closures such as watertight, airtight, and ballistic hatches, doors, and scuttles.  Her professional journey includes roles such as Methods Engineer and Engineering Manager, during which she designed detailed assembly protocols, developed configurable BOM frameworks, led ERP (MACOLA, Syteline) migrations, instituted SOPs, and drove continuous improvement programs using lean and Six Sigma principles. Her certifications include Six Sigma Green Belt and NDT Level II (Visual Testing). Her research work spans surface roughness modeling robotics in welding, and process parameter optimization. She has authored peer-reviewed publications and is cited in international journals; her current h-index is [h-index value, 4 with approximately citation count, 115 total citations. She has been recognized for technical leadership and Gold Medal achievement in her undergraduate degree. With deep expertise in process standardization, lean transformation, and engineering leadership, she continues to drive innovation in marine manufacturing, with particular interest in improving first-pass yield, reducing production lead times, and integrating advanced tooling and robotics to raise quality and throughput.

Profile : Orcid

Featured Publications

Yelamanchili, S. (2025, September 22). Use of additive technologies for the accelerated production of spare parts for marine hatches. International Journal of Science and Research.

Yelamanchili, S. (2025, September 10). Assessing the impact of robotic welding on the productivity of watertight-door manufacturing. International Journal of Scientific Engineering and Science.

Yelamanchili, S., Prasad, M. V. R. D., & Tejaswi, K. S. (2014, November 10). Study of the influence of process parameters on surface roughness when Inconel 718 is dry turned using CBN cutting tool by artificial neural network approach. International Journal of Materials, Mechanics and Manufacturing.

ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

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Dr. ILYACE KORODOWOU | Materials Sciences | Best Researcher Award

PhD, Faculty of Sciences and Techniques of Tangier (FSTT), Morocco

Ilyace Korodowou is a Togolese PhD candidate in Materials Science and Engineering at the Faculty of Sciences and Techniques of Tangier, Morocco. With a background in Mathematics and Natural Sciences, Ilyace graduated with honors from Eyadema Military College in 2016. After completing studies in Biology, Chemistry, and Geology, he pursued a Bachelor’s and Master’s degree in Materials Science, focusing on materials recycling, biopolymer characterization, and sustainable technologies. His research interests include nonwoven processes, plastics, and environmental applications. Ilyace has gained valuable experience in academic research, as well as professional roles in scientific projects and laboratory environments. Outside of his studies, he enjoys reading, football, jogging, and watching crime series. His interdisciplinary approach and passion for impactful research make him a promising figure in the field of materials science.

Profile

Education

Ilyace Korodowou has pursued a diverse and rigorous educational journey in the field of Materials Science and Engineering. His academic path began at Eyadema Military College in Togo, where he completed his high school education in Mathematics and Natural Sciences in 2016. Afterward, he pursued studies in Biology, Chemistry, and Geology (DEUST), followed by a Bachelor’s degree in Chemical Analysis Techniques at Abdelmalek Essaâdi University in Tangier, Morocco. He furthered his education by obtaining a Master’s degree in Materials Engineering for Plastics and Metallurgy (GMPM), deepening his expertise in physics, chemistry, and mechanical engineering. Currently, he is a PhD candidate specializing in Materials Sciences and Engineering, focusing on the recycling, valorization, and characterization of biopolymers, as well as sustainable nonwoven processes. His research is grounded in scientific curiosity, innovation, and a commitment to environmental sustainability.

Experience

Ilyace Korodowou has developed extensive experience in materials science and research, gaining hands-on exposure in various labs and research projects. He is currently a PhD candidate at Abdelmalek Essaâdi University, where his research focuses on sustainable materials, particularly nonwoven technologies, plastics recycling, and biopolymer characterization. Ilyace also worked as a research assistant at the Technical Center of Plastics and Rubber in Casablanca, Morocco, from 2021 to 2023, gaining practical insights into plastic and rubber material processing. He has participated in a number of internships, including work at the Physico-Chemistry Laboratory of Natural Materials and the LAMSE Laboratory. His past roles also include laboratory assistance, where he supervised practical sessions for undergraduates and provided guidance on research methodologies. Additionally, Ilyace has contributed to several scientific conferences and is actively involved in mentoring students for their final-year projects, showcasing his commitment to advancing knowledge and fostering new talent in materials science.

Awards and Honors

Ilyace Korodowou has earned various academic and professional accolades in his field. Notably, he received the first prize at the third edition of the CESTOM-INNOVE project competition in 2022, awarded for his innovative ecoVALFI project, focusing on sustainable materials. His academic journey has been marked by several prestigious certifications, including a badge of achievement in “Optimization of Processes and Advanced Processes of Thermoplastics and Composites” from Institut Mines-Télécom in Paris (2024), and a series of research-focused certificates from Clarivate, University of Liège, and Paris-Saclay University. Ilyace has also excelled in numerous online learning platforms, including earning badges in Biomass and Green Chemistry, Nanoscience, and Advanced Chemistry. His ongoing academic success underscores his commitment to advancing in materials science and engineering, particularly in sustainable development and environmental preservation.

Research Focus

Ilyace Korodowou’s research focuses on the sustainable recycling and valorization of materials, particularly in the fields of biopolymers, nonwoven technologies, and plastic materials processing. His work explores environmentally friendly alternatives to traditional materials, such as the use of sisal fibers and recycled materials in industrial applications. Ilyace is dedicated to characterizing and functionalizing biopolymers, with a focus on improving their properties for various applications in sustainability. He is also exploring innovative nonwoven processes, specifically in the context of filtration membranes and absorbent materials, that can help reduce the environmental impact of plastic waste. Additionally, his research includes the design and optimization of materials for specific applications, including the development of composite materials and the study of life cycle assessments (LCA) for environmental impact evaluation. Ilyace’s interdisciplinary approach combines materials science, engineering, and environmental science to create a more sustainable future through innovative material design and processing.

Publication Top Notes

  • Evaluating sisal fibers as an eco-friendly and cost-efficient alternative to cotton for the Moroccan absorbent hygiene and textile industries 🌱 (Industrial Crops and Products, 2024)
  • Industrial ecology in Morocco: wet laying composite air filter membrane based on cottonized sisal fibers and recycled nonwoven supermarket bag 🌿 (Biomass Conversion and Biorefinery, 2024)
  • Stabilization of Argan Oil Nanoemulsions Using Chitosan Extracted from Pink Shrimp Shells 🐚 (Applied Science, 2025)
  • Cottonized sisal fibers: a more economic and sustainable alternative to natural cotton, – for absorbent textile and hygienic products, in Morocco 🌱 (2024)
  • Industrial Ecology in Morocco: Wet Laying Composite Filter Membrane Based on Cottonized Sisal Fibers and Recycled Non-Woven Supermarket Bag 🧵 (2023)
  • Composite membrane based on cellulose fibers and recycled polypropylene: a more economic and sustainable alternative for the filtration of particles in the air 🌍 (8th International Symposium on Sediment Management, 2024)