Mr. Jinpeng Dai | Nanotechnology | Best Researcher Award

Lanzhou Jiaotong University, China

Profiles

Scopus Profile

Early Academic Pursuits

Mr. Jinpeng Dai began his academic journey in the field of civil engineering with a strong focus on bridge and tunnel engineering. Throughout his undergraduate and postgraduate education at Lanzhou Jiaotong University, he developed a solid foundation in the engineering sciences. His academic path led him to complete advanced studies in civil engineering construction and management, during which he cultivated specialized interests in the performance and resilience of infrastructure in extreme climates. His academic training has been instrumental in shaping his later research on durable concrete and its behavior under challenging environmental conditions.

Professional Endeavors

Mr. Dai has steadily progressed in his academic career within the College of Civil Engineering at Lanzhou Jiaotong University. Starting as an assistant, he moved through the ranks as a lecturer and now serves as an associate research fellow. His role involves leading and participating in multiple research initiatives, mentoring graduate students, and contributing to the strategic development of the civil engineering program. He has played a key role in various scientific and technical research collaborations supported by national foundations, postdoctoral programs, and academic societies.

Contributions and Research Focus

Mr. Dai’s core research interests include the durability of concrete in low-temperature and harsh environments, with emphasis on the development of low-carbon and high-durability materials. He has explored topics such as microstructure evolution, frost resistance mechanisms, and multi-scale modeling of cement-based materials. His research has been pivotal in enhancing the understanding of how concrete performs in permafrost regions, alpine frozen soils, and dry saline soil areas. He has also advanced nano-SiO₂-modified concrete technologies and their application in environments characterized by low atmospheric pressure and extreme temperature variation.

Impact and Influence

Mr. Dai has made substantial contributions to both scientific research and engineering practice. His work has earned recognition from prestigious institutions such as the People’s Government of Gansu Province, the China Railway Society, and the Gansu Civil Engineering and Architecture Society. He has received multiple awards for his innovations in concrete durability, high-speed railway construction, and tunnel engineering. These accolades reflect the practical significance and academic value of his studies in concrete behavior under harsh environmental conditions.

Academic Cites and Recognition

His research contributions have been recognized through several science and technology progress awards, including prizes for innovative crack control, tunnel structure optimization, and durable concrete applications. He has also been honored with Outstanding Doctoral Dissertation Awards from both his university and the province, further underscoring his academic influence. His scholarly activities have earned him grants and citations that demonstrate the relevance of his work in both academic and industrial settings.

Technical Skills

Mr. Dai’s expertise spans microstructural analysis of concrete materials, durability testing, frost resistance modeling, and simulation techniques for cement-based structures. He is proficient in the multi-scale modeling of concrete and adept at working with various materials and technologies designed to enhance structural integrity in cold or high-altitude environments. He also contributes to the development of engineering standards for railway construction quality assurance.

Teaching Experience

As a dedicated educator, Mr. Dai teaches both undergraduate and postgraduate courses. At the undergraduate level, he instructs in civil engineering materials and principles of structural design. For postgraduate students, he teaches bridge structural health monitoring and damage identification, ensuring students are well-versed in practical applications and modern analytical methods. His teaching reflects a balance of theoretical depth and engineering pragmatism.

Legacy and Future Contributions

Mr. Dai’s research trajectory positions him as a significant contributor to sustainable infrastructure development in challenging climates. His commitment to improving the frost resistance, durability, and environmental adaptability of concrete structures continues to shape future directions in civil engineering materials. With ongoing projects supported by national science foundations and postdoctoral programs, he aims to deepen understanding of moisture migration, microstructure performance, and advanced concrete technologies tailored to plateau and permafrost regions. His legacy lies in bridging the gap between materials science and engineering practice for enhanced infrastructure resilience.

Notable Publications

Solution calorimetry to assess effects of water-cement ratio and low temperature on hydration heat of cement
Authors: Dai Jinpeng*, Wang Qicai, Lou Xuyu, Bao Xueying, Zhang Bo, Wang Jianqiang, Zhang Xin
Journal: Construction and Building Materials
Year: 2021
Research on influencing factors and time-varying model of thermal conductivity of concrete at early age
Authors: Dai Jinpeng*, Wang Qicai, Bi Ruixiao, Wang Chong, Han Zhuowei, Du Wentao, Chen Ziyu
Journal: Construction and Building Materials
Year: 2022
Effect of Content and Fineness of GGBS on Pore Structure of Cement Paste
Authors: Dai Jinpeng*, Wang Qicai, Zhang Xin, Bi Ruixiao, Du Wentao
Journal: Journal of Wuhan University of Technology-Mater. Sci. Ed
Year: 2022
Frost resistance and life prediction of equal strength concrete under negative temperature curing
Authors: Dai Jinpeng*, Wang Qicai, Zhang Bo
Journal: Construction and Building Materials
Year: 2023
The Effect of Fineness on the Hydration Activity Index of Ground Granulated Blast Furnace Slag
Authors: Dai Jinpeng*, Wang Qicai, Xie Chao, Xue Yanjin, Duan Yun, Cui Xiaoning
Journal: Materials
Year: 2019

Prof. Dr. Diego Alves | Nanotechnology | Best Researcher Award

Federal University of Mato Grosso do Sul, Brazil

👨‍🎓Profiles

🎓 Early Academic Pursuits

Prof. Dr. Diego Alves began his academic journey with a Bachelor’s in Physics from the Federal University of Piauí (UFPI), followed by a Master’s and Ph.D. in Physics at the prestigious Federal University of Minas Gerais (UFMG). His early research cultivated a deep interest in nanostructured materials and their multifunctional applications, setting the stage for an impactful scientific career. A postdoctoral fellowship at UFMG further refined his skills in experimental physics and materials science.

🧑‍🔬 Professional Endeavors

Currently serving as an Associate Professor at the Federal University of Mato Grosso do Sul (UFMS) since 2015, Prof. Alves has led innovative research across materials science, focusing on the development of functional nanomaterials. His professional journey is marked by active roles in funded national and international research programs including FUNDECT and CAPES PRINT, and close collaboration with global institutions like Rutgers University (USA) and UFMG.

🔬 Contributions and Research Focus

Prof. Alves’ work is at the cutting edge of nanotechnology applied to energy and environmental solutions. His research areas include the synthesis and characterization of carbon nanostructures and semiconductor oxides, supercapacitors and electrocatalysts for CO₂ reduction, photocatalytic materials for pollutant degradation, and low-cost nanodevices and sensors for environmental and biomedical use. Notable contributions include the development of graphene oxide-based supercapacitors with superior energy storage capabilities, and copper nanoparticle/graphene catalysts that convert CO₂ into oxalic acid, published in Molecular Catalysis (2025).

🌍 Impact and Influence

With over 3,247 citations across 23 high-impact publications, including a landmark article in Nature Materials with 2,339 citations, Prof. Alves’ research significantly influences both academia and industry. His innovations have led to three patents and successful technology transfer for real-world applications in sensing and pollution control. Moreover, he has trained over 15 graduate students, shaping the next generation of material scientists.

🏛 Academic Cites & Recognitions

He holds the CNPq Research Productivity Fellowship (PQ-2) and is widely recognized for his scholarly impact, with over 3,200 citations on research platforms. His work has appeared in top-tier journals such as Nature Materials and Molecular Catalysis, supported by international collaborations that amplify his global academic footprint.

🛠 Technical Skills

Prof. Alves is highly skilled in nanomaterial synthesis (including graphene oxide and metal nanoparticles), semiconductor characterization techniques like XRD, SEM, TEM, UV-Vis, and FTIR, electrochemical analysis for supercapacitors and catalysts, sensor fabrication, and testing, as well as photocatalytic degradation processes.

👨‍🏫 Teaching Experience

A passionate educator, Prof. Alves has supervised 6 Master’s and 3 Ph.D. students, integrating real-world research challenges into the classroom. His mentorship promotes both scientific inquiry and practical application, enhancing the academic ecosystem at UFMS.

🌱 Legacy and Future Contributions

Prof. Alves is committed to advancing sustainable technologies by bridging fundamental nanoscience with real-world energy and environmental solutions. His future work aims to develop next-gen supercapacitors, CO₂ reduction catalysts, and nanodevices for health applications, continuing to lead innovation through interdisciplinary research and international collaboration.

📖Notable Publications

Copper particles-dispersed on graphene oxide has high faradaic efficiency to produce oxalic acid in aprotic medium
Authors: Bruna Soares dos Reis Aranha; Fabiana Pereira de Sousa; Alem-Mar Bernardes Goncalves; Gilberto Maia; Diego Carvalho Barbosa Alves
Journal: Molecular Catalysis
Year: 2025
Miniaturized 3D-Printed Cell Enables Water/Ethanol Quantification Using Electrochemical Impedance Spectroscopy
Authors: Pablo A. Paixao; Flávio S. Michels; Samuel L. Oliveira; Alem-Mar B. Goncalves; Cauê A. Martins; Anderson R. L. Caires; Diego C. B. Alves
Journal: Sensors
Year: 2023
Ultrabroadband Nanocavity of Hyperbolic Phonon-Polaritons in 1D-Like alpha-MoO3
Authors: Ingrid D. Barcelos; Thalita A. Canassa; Rafael A. Mayer; Flavio H. Feres; Eynara G. de Oliveira; Alem-Mar B. Goncalves; Hans A. Bechtel; Raul O. Freitas; Francisco C. B. Maia; Diego C. B. Alves
Journal: ACS Photonics
Year: 2021
Effective killing of bacteria under blue-light irradiation promoted by green synthesized silver nanoparticles loaded on reduced graphene oxide sheets
Authors: Cynthia S. A. Caires; Luiz A. S. Farias; Luiz E. Gomes; Bruno P. Pinto; Daniel A. Goncalves; Luiz F. Zagonel; Valter A. Nascimento; Diego C. B. Alves; Ian Colbeck; Corinne Whitby
Journal: Materials Science and Engineering: C
Year: 2020
Production of oxalic acid by electrochemical reduction of CO₂ using silver-carbon material from babassu coconut mesocarp
Authors: Rubens S. Costa; Bruna S. R. Aranha; Anupama Ghosh; Anderson O. Lobo; Everson T. S. G. da Silva; Diego C. B. Alves; Bartolomeu C. Viana
Journal: Journal of Physics and Chemistry of Solids
Year: 2020

Jinpeng Dai | Nanotechnology | Best Researcher Award