Haiwei Ji | Functional Materials Science | Research Excellence Award

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Dr. Haiwei Ji | Functional Materials Science | Research Excellence Award

Teacher | Nantong University | China

Dr. Haiwei Ji is a tenure-track Professor and Master’s Supervisor specializing in bio-nanofunctional materials, bioelectrochemistry, and advanced nano-sensing technologies for public health and biomedical applications. He earned his Doctorate in Inorganic Chemistry from the Chinese Academy of Sciences and is a recipient of the Jiangsu Shuangchuang Doctor honor for scientific innovation. Dr. Ji has authored 60+ SCI-indexed publications in leading journals such as Advanced Science, Chemical Engineering Journal, Biosensors and Bioelectronics, and Angewandte Chemie, accumulating over 2,000 citations, reflecting strong international impact. His research leadership includes serving as Principal Investigator on National Natural Science Foundation of China projects, particularly in bacterial biofilm diagnosis and precision tumor immunotherapy. Through extensive collaborations with multidisciplinary teams, his work has advanced rapid diagnostics, antimicrobial strategies, and intelligent sensing platforms, contributing meaningfully to public health safety, clinical decision-making, and sustainable biomedical innovation on a global scale.

Citation Metrics (Scopus)

2100

1500

1000

500

0

Citations
2,088

Documents
44

h-index
19


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Featured Publications

On-site Detection of OTA and AFB1 Based on Branched Hybridization Chain Reaction Coupled with Lateral Flow Assay
– Talanta, 2025 (7 Citations)
Machine Learning-Engineered Nanozyme System for Synergistic Anti-Tumor Ferroptosis/Apoptosis Therapy
– Small, 2025 (5 Citations)
Exploring New Bioorthogonal Catalysts: Scaffold Diversity in Catalysis for Chemical Biology
– Review Article, 2025 (3 Citations)
Functionalized Antimicrobial Peptides-Based Fluorescent Sensor Array for Multiple Bacteria and Biofilm Identification
– Sensors and Actuators B: Chemical, 2025

Prabhat K. Agnihotri | Materials Science and Engineering | Excellence in Research Award

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Prof. Prabhat K. Agnihotri | Materials Science and Engineering | Excellence in Research Award

Professor | Indian Institute of Technology Ropar | India

Prabhat K. Agnihotri is an accomplished researcher in the field of advanced materials and solid mechanics, with core expertise spanning multifunctional composites, bio-inspired material design, experimental and fracture mechanics, and interface/interphase engineering. His research integrates experimental investigations with multiscale modeling to understand and enhance the mechanical, thermal, electrical, and functional performance of multiphase and hierarchical materials. A significant emphasis of his work lies in carbon nanotube–based composites, thermal interface materials, electromagnetic shielding, energy harvesting structures, and structural health monitoring systems. He has contributed extensively to high-impact journals and holds multiple patents translating fundamental research into industrially relevant technologies. His research portfolio includes leadership and collaboration in several nationally and internationally funded projects, addressing challenges in aerospace, defense, electronics, and energy applications. Through sustained contributions to composite materials science and mechanics, his work advances both theoretical understanding and practical deployment of next-generation engineered materials.

Citation Metrics (Scopus)

300

200

100

0

Citations
242

Documents
6

h-index
5


View Scopus Profile
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Top 5 Featured Publications

Oluwatoyin Joseph Gbadeyan | Materials Science and Engineering | Best Researcher Award

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Dr. Oluwatoyin Joseph Gbadeyan | Materials Science and Engineering | Best Researcher Award

Postdoctoral Fellow | University of KwaZulu-Natal | South Africa

Dr. Oluwatoyin Joseph Gbadeyan’s research field is anchored in the development of sustainable materials, advanced composites, and innovative manufacturing techniques with applications in mechanical engineering, renewable energy, and the circular economy. His extensive project portfolio includes the design and optimization of bio-composites, bioplastics, and nanomaterials for environmental sustainability and industrial applications. Through his work at leading institutions such as the University of KwaZulu-Natal and Durban University of Technology, he has led groundbreaking projects on hybrid nano-shell plant fiber bio-composites and tribological materials for brake pad applications. His research extends to the valorization of waste materials into high-performance composites, the development of snail shell–derived nanoparticles, and the improvement of additive manufacturing processes to enhance mechanical strength and process efficiency. As a principal investigator and collaborator, he has developed proposals in bioeconomy-focused projects including biofuel, biobricks, and bioplastics, contributing to the advancement of waste-to-energy systems and sustainable product design. His extensive publication record of over thirty peer-reviewed articles, two books, and seventeen book chapters reflects his expertise in nanotechnology, material characterization, and polymer science. Dr. Gbadeyan’s experience spans across academic research, industrial innovation, and technical leadership, where he has successfully guided students and research teams in laboratory experimentation, data analysis, and project execution. His research interests focus on green composite materials, sustainable energy systems, waste valorization, and tribological performance optimization of engineering materials. By integrating materials science with sustainable development principles, he continues to explore innovative approaches that promote eco-friendly manufacturing and circular economy models. His professional activities, including his roles as journal reviewer and committee member for national research funding evaluations, underscore his leadership in advancing the frontiers of sustainable materials research and his dedication to fostering innovation within global engineering communities.

Profile: Google Scholar
Publications:

Baloyi, R. B., Gbadeyan, O. J., Sithole, B., & Chunilall, V. (2024). Recent advances in recycling technologies for waste textile fabrics: A review. Textile Research Journal, 94(3–4), 508–529.

Khoaele, K. K., Gbadeyan, O. J., Chunilall, V., & Sithole, B. (2023). The devastation of waste plastic on the environment and remediation processes: A critical review. Sustainability, 15(6), 5233.

Gbadeyan, O. J., Adali, S., Bright, G., Sithole, B., & Awogbemi, O. (2020). Studies on the mechanical and absorption properties of Achatina fulica snail and eggshells reinforced composite materials. Composite Structures, 239, 112043.

Gbadeyan, O. J., Muthivhi, J., Linganiso, L. Z., & Deenadayalu, N. (2024). Decoupling economic growth from carbon emissions: A transition toward low-carbon energy systems—A critical review. Clean Technologies, 6(3), 1076–1113.

Gbadeyan, O. J., Adali, S., Bright, G., Sithole, B., & Onwubu, S. (2020). Optimization of milling procedures for synthesizing nano‐CaCO₃ from Achatina fulica shell through mechanochemical techniques. Journal of Nanomaterials, 2020(1), 4370172.

S. Ilangovan | Materials Science and Engineering | Eco-friendly Construction Practices Award

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Dr. S. Ilangovan | Materials Science and Engineering | Eco-friendly Construction Practices Award

Professor | SRM Institute of Science and Technology | India

Dr. S. Ilangovan is a distinguished academic and researcher at the SRM Institute of Science and Technology, Ramapuram Campus, Chennai, India, recognized for his significant contributions to engineering and applied sciences. He has authored eight peer-reviewed publications that have collectively garnered 128 citations from 114 documents, reflecting the growing global relevance and academic impact of his work. His research achievements are further evidenced by an h-index of 5, which highlights his consistent scholarly productivity and influence across multiple interdisciplinary domains. Dr. Ilangovan’s research primarily spans the areas of civil and structural engineering, materials science, and sustainable technologies, emphasizing innovative design solutions and environmental resilience. Through collaborations with over 18 co-authors, he has contributed to advancing applied research that bridges theoretical understanding with practical implementation, fostering technological development and knowledge exchange within the academic and industrial sectors. His scholarly endeavors have influenced emerging fields and inspired further studies in engineering design and materials optimization. Beyond publications, Dr. Ilangovan’s work demonstrates a strong societal orientation, focusing on sustainable infrastructure and problem-solving approaches that align with contemporary global development goals. His research contributions, marked by methodological rigor and interdisciplinary perspective, exemplify his commitment to academic excellence, collaborative learning, and the translation of research outcomes into tangible benefits for society. With a steadily growing citation record and recognized expertise, Dr. Ilangovan continues to contribute meaningfully to the scientific community through impactful research, mentorship, and engagement in innovative technological solutions aimed at creating a more sustainable and resilient built environment.

Profile: Scopus | ORCID | Google Scholar
Featured Publications:

Ilangovan, S., Kumaran, S. S., Vasudevan, A., & Naresh, K. (2019). Effect of silica nanoparticles on mechanical and thermal properties of neat epoxy and filament wounded E-glass/epoxy and basalt/epoxy composite tubes. Materials Research Express, 6(8), 0850e2. 
(Cited by: 35)

Ilangovan, S., Kumaran, S. S., & Naresh, K. (2020). Effect of nanoparticles loading on free vibration response of epoxy and filament winding basalt/epoxy and E-glass/epoxy composite tubes: Experimental, analytical and numerical investigation. Materials Research Express, 7(2), 025007. 
(Cited by: 33)

Keerthi Gowda, B. S., Naresh, K., Ilangovan, S., Sanjay, M. R., & Siengchin, S. (2022). Effect of fiber volume fraction on mechanical and fire resistance properties of basalt/polyester and pineapple/polyester composites. Journal of Natural Fibers, 19(13), 6074–6088. 
(Cited by: 30)

Ilangovan, S., Kumaran, S. S., Naresh, K., Shankar, K., & Velmurugan, R. (2023). Studies on glass/epoxy and basalt/epoxy thin-walled pressure vessels subjected to internal pressure using ultrasonic ‘C’ scan technique. Thin-Walled Structures, 182, 110160. 
(Cited by: 28)

Subramanian, J., Selvaraj, V. K., Singh, R., Kakur, N., & Whenish, R. (2024). Acoustical properties of a 3D printed honeycomb structure filled with nanofillers: Experimental analysis and optimization for emerging applications. Defence Technology, 35, 248–258.
(Cited by: 14)

Antoni Mir Pons | Material Science and Engineering | Young Scientist Award

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Mr. Antoni Mir Pons | Material Science and Engineering | Young Scientist Award

PhD | University of the Balearic Islands | Spain

Mr. Antoni Mir Pons develops research in the field of civil and structural engineering, with a particular focus on the study and application of iron-based shape memory alloys (Fe-SMA) for strengthening existing reinforced concrete structures. His scientific contributions reflect an advanced understanding of materials behavior under semi-cyclic loads and their influence on recovery stresses, which is essential for improving the resilience and sustainability of infrastructures. Currently engaged at the University of the Balearic Islands within the UIB Construct research group, Antoni’s work explores the mechanical performance and practical integration of Fe-SMA as an innovative reinforcement technology. He has presented significant findings at leading international conferences such as the fib PhD Symposium in Civil Engineering and the SMAR Conference in Italy, contributing to global knowledge on structural rehabilitation using smart materials. His previous collaborations with the AMADE group at the University of Girona involved theoretical and experimental studies on reinforced concrete structures strengthened with fiber-reinforced polymer (FRP) laminates, evaluating cracking behavior and proposing refinements to Eurocode and fib Model Code formulations. Antoni’s research also integrates climate resilience aspects, as seen in his participation in projects such as RESTART, focused on mitigating deterioration risks in existing concrete infrastructures under changing environmental conditions. Awarded for his outstanding Master’s Thesis on Fe-SMA reinforcement technology, Antoni continues to bridge experimental engineering with sustainable innovation, contributing to the evolution of active reinforcement systems that reduce environmental impact and extend the lifespan of civil structures. His ongoing doctoral research deepens this line of inquiry, enhancing the understanding of semi-cyclic load effects and establishing a strong foundation for future advancements in structural engineering.

Profile: Scopus
Fearuted Publications:

Experimental study on recovery stress losses in Fe-SMA rebars under semi-cyclic loads considering different activation temperatures and multiple activations. (2025). Construction and Building Materials.

Sandra Cunha Gonçalves | Materials Science and Engineering | Women Researcher Award

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Prof. Dr. Sandra Cunha Gonçalves | Materials Science and Engineering | Women Researcher Award

Research Teacher | Federal Institute of Bahia | Brazil

Prof. Dr. Sandra Cunha Gonçalves has developed a solid academic and scientific career in Civil Engineering, Sustainability, and Environmental Studies, focusing on innovative solutions for the reuse of waste materials in the construction industry. Her research emphasizes solid waste management and the development of eco-friendly materials that incorporate vegetal fibers, modified starch, recycled gypsum, and other industrial by-products to minimize environmental impacts and promote sustainable practices in social housing. Gonçalves has contributed to advancing sustainable construction technologies through the creation of composites and biocomposites with improved physical and mechanical properties, offering alternatives to conventional materials with high energy consumption. Her ongoing projects explore life cycle analysis of materials, the use of green coconut fibers, and polymeric emulsions in gypsum matrices, generating significant results for structural efficiency and environmental performance. Her scientific output includes publications in national and international journals, book chapters, and conference presentations on sustainability, bioconstruction, and waste management. In addition to her research, she promotes extension activities that integrate social technology, environmental education, and vernacular architecture, strengthening the connection between science, culture, and community. At the Federal Institute of Bahia, Gonçalves leads research groups focused on material innovation and environmental education, mentoring new researchers committed to socio-environmental responsibility and construction efficiency. Her professional journey is distinguished by a strong dedication to sustainability, the integration of applied science with technical education, and the continuous pursuit of viable solutions that balance technical performance with the preservation of natural resources.

Profile: ORCID
Featured Publications
Gonçalves, S. C., da Silva Junior, M. F., Souza, M. T., de Amorim Júnior, N. S., & Ribeiro, D. V. (2025). Physicomechanical properties of recycled gypsum composites with polyvinyl acetate emulsion and treated short green coconut fibers. Buildings.

Yaxing Liu – Materials Science and Engineering – Best Researcher Award

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Mr. Yaxing Liu - Materials Science and Engineering - Best Researcher Award

lecturer | Taiyuan University of Technology | China

Mr. Yaxing Liu has established strong expertise in the field of mechanical design and theory with a research focus on advanced rolling technology, material forming processes, and fatigue analysis of high-performance steels. His work investigates the mechanisms of strip edge defects, deformation behaviors in composite rolling, and fatigue performance under varying stress conditions, providing valuable insights for enhancing the precision, durability, and efficiency of manufacturing systems. He has contributed to the development of innovative control strategies for trimming processes and created accurate modeling approaches for predicting warping and deformation during steel and aluminum thin strip composite rolling. His research integrates both theoretical modeling and experimental validation to solve complex industrial challenges, ensuring significant improvements in quality control and defect prevention in metal forming industries. In addition to scholarly publications in high-impact journals, Liu’s contributions include patents addressing roll convexity adjustment mechanisms and compensation methods for roll diameter defects in rolling mills, showcasing his ability to translate fundamental research into practical engineering solutions. His continuous engagement in material behavior analysis under stress, defect mitigation techniques, and optimization of manufacturing processes reflects a clear trajectory toward advancing modern mechanical design and metallurgical engineering. With active collaboration across disciplines and consistent innovation in mechanical system optimization, his research strengthens both academic knowledge and industrial application. Yaxing Liu’s work demonstrates a balance of theoretical insight, experimental application, and practical implementation, marking him as a valuable contributor to the development of advanced rolling and forming technologies with wide relevance to the steel and aluminum industries. 155 Citations by 139 documents, 57 Documents, 7 h-index View.

Profile: Scopus
Featured Publications:

  1. Effect of multi‒directional forging on the evolution of intermetallic precipitates and mechanical properties in novel light refractory high-entropy alloys. (2025). Intermetallics.

  2. DDFNet: real-time salient object detection with dual-branch decoding fusion for steel plate surface defects. (2025). Journal of Iron and Steel Research International.

  3. Study on influence and mechanism of steel / aluminum composite thin strips preparation process on interfacial bonding strength. (2025). Suxing Gongcheng Xuebao Journal of Plasticity Engineering.

  4. Research on unbonded defect imaging method of corrugated clad plate based on laser ultrasonics. (2025). Measurement Journal of the International Measurement Confederation.

  5. Effect of two-pass rolling of textured roll and polished roll on surface topography and mechanical properties of 316L stainless steel ultra-thin strip. (2025). Journal of Iron and Steel Research International.

Jialin Liu – Materials Science and Engineering – Best Researcher Award

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Jialin Liu - Materials Science and Engineering - Best Researcher Award

Southeast University - China

AUTHOR PROFILE

GOOGLE SCHOLAR

SCOPUS

🎓 SUMMARY

Jialin Liu is a leading researcher in the field of composite materials and structural engineering, with expertise extending from molecular dynamics to macro-scale simulations. A foundation in Naval Architecture and Ocean Engineering laid the groundwork for an impressive academic path that culminated in a Ph.D. from the City University of Hong Kong. The focus of research has consistently bridged theory, experiment, and application, earning recognition across high-impact journals. Through a career deeply rooted in materials science, Liu has demonstrated versatility in tackling real-world engineering challenges with scientifically rigorous solutions, leaving a mark in both academic and applied engineering communities.

🏫 EARLY ACADEMIC PURSUITS

Jialin Liu began academic exploration at the Huazhong University of Science and Technology, earning a B.S. and M.S. in Naval Architecture and Ocean Engineering. Early research included structural mechanics and composite design, highlighting potential for innovation in sandwich structures and Y-shaped core panels. These formative years provided essential hands-on exposure to mechanical testing and material characterization. Driven by curiosity and academic rigor, Liu expanded knowledge through detailed analysis of failure mechanisms and novel fabrication techniques. This period laid the technical and conceptual foundation required for subsequent interdisciplinary research in civil engineering, nanomaterials, and sustainable infrastructure systems.

🏗️ PROFESSIONAL ENDEAVORS IN STRUCTURAL INNOVATION

Following the master's degree, Jialin Liu pursued a Ph.D. at the City University of Hong Kong under the mentorship of Denvid Lau. Research during this period integrated multiscale modeling and experimentation, focusing on cementitious composites and nanomaterial reinforcements. Collaborations with international scholars and contributions to advanced materials journals demonstrate professional dedication. Liu’s engagement in projects involving boron nitride nanosheets, FRP-reinforced concrete, and geopolymer composites reveals a consistent drive to address structural integrity and durability under complex conditions. The academic career continues at Southeast University, where ongoing contributions enrich the Department of Civil and Architectural Engineering with both teaching and research.

🧪 CONTRIBUTIONS AND RESEARCH FOCUS

Jialin Liu’s research primarily investigates the mechanical behavior of composite structures under varied loading conditions, integrating nanoscale and macro-scale analysis. Key focus areas include boron nitride nanosheet-reinforced cement, self-healing composites, and FRP materials under thermal and moisture-induced stresses. Liu applies a combination of experimental, theoretical, and computational tools, including molecular dynamics simulations and finite element analysis. Several papers as corresponding author reflect leadership in the field. By innovating in sustainable building materials and developing methods to enhance structural resilience, Liu contributes significantly to material science, structural engineering, and environmental sustainability with high relevance to modern infrastructure challenges.

🏅 ACCOLADES AND RECOGNITION

With over 20 peer-reviewed publications in prestigious journals such as Applied Surface Science, Materials and Design, and Composites Science and Technology, Jialin Liu’s academic excellence has received global recognition. Multiple first-author and corresponding-author papers underscore independent contribution and leadership in scientific discovery. Collaboration with esteemed researchers including Denvid Lau and Jiayi Liu signals recognition from established academic circles. Many studies have been published in Q1 journals, highlighting the impactful and innovative nature of the research. The ability to publish across interdisciplinary domains—from nanotechnology to structural composites—demonstrates a rare versatility that is widely acknowledged within the scientific and engineering communities.

🌍 IMPACT AND INFLUENCE IN ENGINEERING SCIENCE

Jialin Liu’s work holds transformative potential for future construction practices, especially in enhancing material performance under harsh environmental conditions. By combining nanoscale innovations with structural modeling, Liu advances both scientific knowledge and practical solutions for sustainable infrastructure. Research on moisture resistance, high-temperature tolerance, and self-healing materials aligns well with global climate resilience goals. Findings have informed developments in structural health monitoring and retrofitting practices, offering new paths to prolong infrastructure lifespan. Liu’s interdisciplinary contributions influence peers, policy thinkers, and industry professionals aiming to create safer, smarter, and more durable engineering systems that respond to evolving societal needs.

📘 LEGACY AND FUTURE CONTRIBUTIONS

As a scholar whose work bridges civil engineering, nanotechnology, and material science, Jialin Liu is poised to shape future generations of research and innovation. Current studies on intelligent materials, thermal performance, and composite interfaces suggest a forward-looking vision that addresses both engineering efficiency and environmental responsibility. The legacy is not only in publications but in establishing frameworks that others can build upon. Liu is expected to continue exploring interdisciplinary domains, possibly integrating AI-driven structural diagnostics and data-enhanced modeling. With a clear trajectory of impactful research, Liu’s future contributions will likely redefine boundaries in civil materials and sustainable infrastructure design.

PUBLICATION

Title: Investigation on manufacturing and mechanical behavior of all-composite sandwich structure with Y-shaped cores
Authors: J. Liu, J. Liu, J. Mei, W. Huang
Journal: Composites Science and Technology, 159, 87–102, 2018


Title: A novel fabrication method and mechanical behavior of all-composite tetrahedral truss core sandwich panel
Authors: J. Mei, J. Liu, J. Liu
Journal: Composites Part A: Applied Science and Manufacturing, 102, 28–39, 2017


Title: Two-dimensional nanomaterial-based polymer composites: Fundamentals and applications
Authors: J. Liu, D. Hui, D. Lau
Journal: Nanotechnology Reviews, 11(1), 770–792, 2022


Title: Mechanical response of a novel composite Y-frame core sandwich panel under shear loading
Authors: J. Liu, T. Zhang, W. Jiang, J. Liu
Journal: Composite Structures, 224, 111064, 2019


Title: Bending response and failure mechanism of composite sandwich panel with Y-frame core
Authors: J. Liu, Z. He, J. Liu, W. Huang
Journal: Thin-Walled Structures, 145, 106387, 2019


Title: Temperature effects on the compressive properties and failure mechanisms of composite sandwich panel with Y-shaped cores
Authors: J. Zhou, Y. Wang, J. Liu, J. Liu, J. Mei, W. Huang, Y. Tang
Journal: Composites Part A: Applied Science and Manufacturing, 114, 72–85, 2018

Dr. Neetu Verma – Materials Science and Engineering – Best Researcher Award

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Dr. Neetu Verma - Materials Science and Engineering - Best Researcher Award

Kanya Maha Vidyalaya, Jalandhar - India

AUTHOR PROFILE

SCOPUS
GOOGLE SCHOLAR

👩‍🔬 SUMMARY

Dr. Neetu Verma is currently serving as Head and Associate Professor, demonstrating a rich academic and research background in materials science, particularly focused on glass composites and radiation shielding. With consistent contributions in high-impact areas like photonic materials and nanocomposites, her profile reflects excellence in research, leadership, and mentorship. Recognized nationally for her innovation in teaching and active involvement in academic bodies, she blends scholarly rigor with practical engagement, shaping both the academic curriculum and scientific inquiry. Through funded projects and invited talks, she is contributing meaningfully to the advancement of optical and radiation shielding materials.

🎓 EDUCATION

Dr. Neetu Verma possesses a strong academic foundation in physics and materials science, equipping her for a specialized research focus in glass materials and nanotechnology. Her academic training laid the groundwork for her significant achievements in research and teaching. With this background, she has successfully mentored numerous students, contributed to scientific forums, and played an integral role in institutional academic development. Her educational journey reflects both depth and interdisciplinary application in glass science, nuclear shielding, and rare earth doping, forming the basis for her continued innovations in photonic and shielding materials.

🏫 PROFESSIONAL EXPERIENCE

With vast teaching and research experience, Dr. Neetu Verma has held leadership roles that extend beyond departmental boundaries. As Head and Associate Professor, she oversees academic development, fosters research collaborations, and facilitates innovative teaching methodologies. She serves as a coordinator for national-level Olympiads and examinations, ensuring academic excellence in physics education. Her mentorship in faculty development, student personality programs, and national camps further amplifies her contribution. With roles in research administration and technical committees, her experience is a blend of educational leadership and scientific advancement.

🔬 RESEARCH INTEREST 

Research interests include the development of radiation shielding glasses, thermal and optical investigation of rare earth-doped glasses, and the synthesis of borate-based nanocomposites. Emphasis lies in studying aluminum oxide and irradiation effects on borate glasses and exploring non-linear optical behaviors. Focus is also directed toward nano-glass ceramics and enhancing glass material performance under radiation environments. These interests contribute to solving real-world challenges in optical technologies and nuclear safety, aligning her research with advanced applications in photonics, fiber-optics, and shielding environments.

🏅 AWARD AND HONOR 

Recipient of numerous awards, including the Best Oral Presentation at ICSTAR-2025 and the Dinabandhu Sahu Memorial Award for innovation in physics teaching. Honored as the Brand Ambassador of IAPT for five years since October 2023. She has also received the Excellence in Research Award from KMV and chaired sessions at international engineering conferences. Additional recognitions include best poster awards, multiple appreciation certificates for e-content development, and her active participation in science education reforms. These accolades highlight her dual strength in research innovation and impactful pedagogy.

🧪 RESEARCH SKILL

Dr. Verma’s research skills span structural, thermal, and optical characterizations, with specialized proficiency in synthesizing rare-earth doped glasses and glass nanocomposites. Skilled in advanced analytical techniques and experimental modeling, she investigates non-linear optical behaviors and terahertz properties. Her expertise includes handling radiation interaction with materials, developing glass for photonic and shielding applications, and leading large-scale government-funded projects. These capabilities support innovative research outputs that intersect fundamental physics with technological applications, reinforcing her as a subject matter expert in functional glass development.

📚 PUBLICATIONS TOP NOTED

Dr. Verma has contributed numerous high-quality publications in national and international journals related to materials science, glass technology, and photonic applications. While specific titles are not listed, her work on germanium oxide nanocomposites, borate glasses, and rare earth doping is frequently cited. These publications have informed ongoing studies in radiation shielding and optical material development. Her papers reflect robust experimental design, interdisciplinary relevance, and strong theoretical grounding, establishing her as a notable contributor in solid-state and glass materials research.

Title: Spectroscopic, thermal and structural investigations of Dy³⁺ activated zinc borotellurite glasses and nano-glass-ceramics for white light generation
Authors: S Kaur, O.P. Pandey, C.K. Jayasankar, N. Chopra
Journal: Journal of Non-Crystalline Solids 521, 119472

Title: Optical, Physical and Structural Properties of Er³⁺ Doped Low‐Phonon Energy Vitreous Matrix: ZnO‐B₂O₃‐TeO₂
Authors: N. Chopra, S. Kaur, M. Kaur, S. Singla, R. Marwaha, G. Sharma, M.S. Heer
Journal: physica status solidi (a) 215 (13), 1700934

Title: Enhanced photoluminescence in Dy³⁺/Au co-doped bismuth borosilicate glass
Authors: S. Singla, S. Kaur, N. Mahendru, O.P. Pandey, N. Chopra, G. Sharma
Journal: Optical Materials 126, 112236

Title: UV–vis spectroscopic Investigation on γ-irradiated alkali aluminoborate glasses
Authors: N. Chopra, N.P. Singh, S. Baccaro, G. Sharma
Journal: Physica B: Condensed Matter 407 (8), 1209-1213

Title: Effect of gamma irradiation on physical, optical, spectroscopic and structural properties of Er³⁺-doped vitreous zinc borotellurite
Authors: S. Kaur, O.P. Pandey, C.K. Jayasankar, N. Chopra
Journal: Journal of Luminescence 235, 118031

Title: Exploring thermal, optical, structural and luminescent properties of gamma irradiated Dy³⁺ doped tellurite glasses: photon shielding properties
Authors: S. Kaur, O.P. Pandey, C.K. Jayasankar, N. Verma
Journal: Radiation Physics and Chemistry 199, 110375

Title: Analysis of gold nanoparticles dispersed bismuth borate glass: effect of size and concentration
Authors: S. Singla, Abhishek, N. Bansal, N. Chopra, G. Sharma
Journal: Journal of Materials Science: Materials in Electronics 34 (6), 526

🔍 CONCLUSION 

Through a blend of academic leadership, high-impact research, and national educational engagement, Dr. Verma has emerged as a key figure in advanced material science. Her contributions reflect both scholarly innovation and societal relevance, especially in the domains of radiation shielding and photonic glass applications. Recognized by peers and institutions alike, she continues to mentor, inspire, and lead scientific advancements in physics and materials engineering. Her sustained involvement in national educational initiatives and professional bodies further reflects a commitment to shaping the future of science education in India.

Dr. Yuhai Dou – Materials Chemistry – Best Researcher Award

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Dr. Yuhai Dou - Materials Chemistry - Best Researcher Award

University of Shanghai for Science and Technology - China

AUTHOR PROFILR

GOOGLE SCHOLAR

🧬 SUMMARY

Dr. Yuhai Dou is a trailblazing materials scientist specializing in atomically thin nanomaterials for energy conversion and storage. With a Ph.D. from the University of Wollongong and extensive research experience across China and Australia, he has pioneered several high-impact studies in electrocatalysis, water splitting, and rechargeable batteries. Dr. Dou is a Professor at the University of Shanghai for Science and Technology and has served in roles such as ARC DECRA Fellow and Research Fellow at Griffith University. He boasts a publication record of over 90 papers in top-tier journals with an H-index of 45, over 7500 citations, and coverage in leading science media outlets. His innovations have been recognized through multiple awards, fellowships, and funded projects totaling millions in CNY and AUD. He continues to contribute significantly to next-generation energy materials research and global scientific collaboration.

📘 EARLY ACADEMIC PURSUITS

Dr. Yuhai Dou began his academic journey in materials science at Central South University, where he earned both his bachelor's and master's degrees with a focus on powder metallurgy. During his early career, he displayed an aptitude for applied research, developing high-silicon aluminum alloys and oxide dispersion-strengthened steels. His passion for advanced materials led him to pursue doctoral studies at the University of Wollongong under the guidance of esteemed mentors like Prof. Shi Xue Dou and A/Prof. Ziqi Sun. His Ph.D. focused on atomically thin nanomaterials for lithium/sodium-ion batteries and catalytic oxygen evolution reactions. A notable milestone during his doctoral years included a visiting research stint at Beihang University, where he explored superwetting materials for oil spill collection. These formative years equipped Dr. Dou with a solid foundation in nanomaterials, electrochemistry, and sustainable energy technologies, which continue to shape his scientific pursuits today.

🏛️ PROFESSIONAL ENDEAVORS

Dr. Dou's professional journey reflects a dynamic blend of academic excellence and international exposure. He began as an Associate Research Fellow at the University of Wollongong, advancing to Research Fellow and DECRA Fellow at Griffith University, where he explored single-atom catalysts and vacancy engineering. Returning to China, he held professorships at the Shandong Institute of Advanced Technology and currently serves as Professor at the University of Shanghai for Science and Technology. Across these roles, he has led cutting-edge research on atomically thin materials for electrocatalysis and clean energy. Dr. Dou has also been actively involved in mentoring young researchers, chairing academic sessions, and contributing to major international conferences. His strong academic leadership and commitment to translational research have positioned him as a key figure in the global materials science community, driving innovation in sustainable energy technologies.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

At the core of Dr. Dou’s research is the rational design and manipulation of atomically thin nanomaterials to enhance energy conversion and storage systems. He has made significant breakthroughs in water splitting, H2O2 production, oxygen evolution reaction (OER), and the development of next-generation Li/Na-ion batteries. His research integrates defect engineering, cation-vacancy tuning, and single-atom catalyst design, setting new performance benchmarks in electrocatalysis. Dr. Dou's interdisciplinary approach blends computational modeling and experimental methods, supported by prestigious grants from the ARC and Chinese funding agencies. His highly cited reviews and original articles, including in Chemical Reviews and Nature Communications, have influenced academic and industrial strategies toward green energy. Through collaborations and keynotes, he promotes global dialogue in materials research. His work not only addresses energy sustainability but also contributes to the foundational understanding of two-dimensional material science.

🏆 ACCOLADES AND RECOGNITION

Dr. Dou's outstanding research achievements have earned him numerous national and international honors. He is a recipient of the ARC DECRA award, IAAM Medal Nomination, and the China Top Cited Paper Award. His excellence in innovation was recognized with the Military Medal by the Shanghai Government and the “5150” Talent Plan of Jinan. Additional accolades include the Distinguished Expert of Jinan, Taishan Scholar title, and several early-career research grants from Griffith University. His academic leadership is reflected in invitations as keynote speaker, session chair, and panelist at global conferences. With awards from prestigious institutions and governments, Dr. Dou has been consistently identified as an emerging leader in energy materials research. These recognitions underscore his ability to bridge academic inquiry with real-world applications, affirming his role as a global influencer in sustainable energy solutions.

🌍 IMPACT AND INFLUENCE

Dr. Yuhai Dou's influence extends beyond publications and patents—his work impacts global energy policy and industrial innovation. His studies on efficient water-splitting catalysts and next-generation batteries offer promising solutions to energy challenges. Several of his papers are highly cited, appearing in journals with impact factors exceeding 70, and are frequently spotlighted by science media worldwide. He has played a significant role in guiding early-career scientists through mentorship and collaboration. His participation in international consortia, such as ARC Discovery and Vehicle Auto CRC, reflects his strategic integration of academic insight into industry-relevant projects. Dr. Dou’s research has shaped contemporary understanding of low-dimensional materials and continues to inform best practices in nanomaterials engineering for energy applications. As a thought leader, his global reach and interdisciplinary approach advance the transition toward a more sustainable and energy-efficient future.

🚀 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Dr. Dou is poised to expand the boundaries of nanomaterials science through high-risk, high-reward research. With over 26 million CNY in research grants under his leadership, he plans to deepen exploration into defect-modulated 2D materials and scalable electrocatalysts for hydrogen generation. His vision includes fostering cross-disciplinary research that merges artificial intelligence, advanced spectroscopy, and materials informatics. As a mentor and collaborator, he aims to build a global network for innovation in energy storage technologies. His ongoing contributions will likely redefine efficiency standards in catalysis and battery technologies. Dr. Dou’s long-term impact lies in his ability to inspire scientific curiosity, train future leaders, and engineer practical solutions for global sustainability. His legacy is one of scientific rigor, visionary leadership, and unwavering commitment to advancing clean energy science for societal good.

PUBLICATION

Title: Generalized self-assembly of scalable two-dimensional transition metal oxide nanosheets
Authors: Z. Sun, T. Liao, Y. Dou, S.M. Hwang, M.S. Park, L. Jiang, J.H. Kim, S.X. Dou
Journal: Nature Communications, 5 (1), 3813 (2014)

Title: Coexisting single‐atomic Fe and Ni sites on hierarchically ordered porous carbon as a highly efficient ORR electrocatalyst
Authors: Z. Zhu, H. Yin, Y. Wang, C.H. Chuang, L. Xing, M. Dong, Y.R. Lu, ...
Journal: Advanced Materials, 32 (42), 2004670 (2020)

Title: Recent progress in graphite intercalation compounds for rechargeable metal (Li, Na, K, Al)‐ion batteries
Authors: J. Xu, Y. Dou, Z. Wei, J. Ma, Y. Deng, Y. Li, H. Liu, S. Dou
Journal: Advanced Science, 4 (10), 1700146 (2017)

Title: 2D Frameworks of C2N and C3N as New Anode Materials for Lithium‐Ion Batteries
Authors: J. Xu, J. Mahmood, Y. Dou, S. Dou, F. Li, L. Dai, J.B. Baek
Journal: Advanced Materials, 29 (34), 1702007 (2017)

Title: Atomic Layer‐by‐Layer Co₃O₄/Graphene Composite for High Performance Lithium‐Ion Batteries
Authors: Y. Dou, J. Xu, B. Ruan, Q. Liu, Y. Pan, Z. Sun, S.X. Dou
Journal: Advanced Energy Materials, 6 (8), 1501835 (2016)

Title: A yolk–shell structured silicon anode with superior conductivity and high tap density for full lithium‐ion batteries
Authors: L. Zhang, C. Wang, Y. Dou, N. Cheng, D. Cui, Y. Du, P. Liu, M. Al‐Mamun, ...
Journal: Angewandte Chemie International Edition, 58 (26), 8824–8828 (2019)