Mengxi Tan | Photocatalysis | Best Researcher Award

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Dr. Mengxi Tan | Photocatalysis | Best Researcher Award

Lecturer | Henan University of Technology | China

Dr. Mengxi Tan is a dedicated scientist and faculty member at the College of Chemistry and Chemical Engineering, Henan University of Technology. She specializes in the structural design and performance enhancement of photocatalysts, with research applications in sustainable energy production and environmental protection. Her expertise covers photocatalytic water splitting for hydrogen generation, oxygen reduction for hydrogen peroxide production, and photocatalytic biomass conversion. She has also contributed significantly to studies on photochemical theory, charge dynamics, intermediate conversions, and surface reaction mechanisms. Her work is recognized for advancing catalytic efficiency through innovative materials engineering and interdisciplinary approaches.

Professional Profile

Scopus

Education

Dr. Tan earned her Doctor of Philosophy degree from Beijing University of Science and Technology, where she focused on developing advanced photocatalytic systems for renewable energy applications. Her academic journey equipped her with deep knowledge of materials chemistry, photocatalytic mechanisms, and environmental catalysis.

Experience

After completing her doctoral studies, Dr. Tan joined Henan University of Technology as a faculty member in the College of Chemistry and Chemical Engineering. She has since engaged in extensive research, leading projects on photocatalytic materials development and collaborating with multidisciplinary teams across institutions. Her work also extends into joint studies involving solid oxide fuel cells, CO₂ electroreduction, and piezo-photocatalysis, broadening the impact of her expertise in both academic and industrial contexts

Research Interests

Dr. Tan’s research centers on designing novel photocatalysts and exploring their functional mechanisms for energy and environmental applications. Her work emphasizes interfacial engineering, heterojunction development, defect engineering, and kinetic optimization to improve photocatalytic performance. She has applied these principles to hydrogen evolution, hydrogen peroxide generation, pollutant degradation, and biomass conversion, aiming to contribute to sustainable energy solutions and environmental remediation technologies.

Honors

Dr. Tan has been recognized for her scientific contributions through multiple high-impact publications and collaborations with leading researchers. Her work has appeared in some of the most respected journals in chemistry and materials science, earning citations from peers worldwide. These achievements reflect her growing reputation in the global research community and her dedication to advancing clean energy technologies.

Top Noted Publications

Design of the photocatalyst for H₂O₂ production by oxygen reduction reaction-  Web of Science indexed, 2025

Boosting Photocatalytic Hydrogen Production via Interfacial Engineering on 2D Ultrathin Z-Scheme ZnIn₂S₄/g-C₃N₄ Heterojunction – Web of Science indexed, 2022

Unexpected High-Performance Photocatalytic Hydrogen Evolution in Co@NCNT@ZnIn₂S₄ Triggered by Directional Charge Separation and Transfer – Web of Science indexed, 2022

The 2D Van der Waals heterojunction MoC@NG@CN for enhanced photocatalytic hydrogen production – Web of Science indexed, 2023

In situ fabrication of MIL-68(In)@ZnIn₂S₄ heterojunction for enhanced photocatalytic hydrogen production – Web of Science indexed, 2023

Conclusion

Dr. Mengxi Tan is an emerging leader in photocatalysis research, combining strong theoretical knowledge with practical innovation in materials design. Her publications in high-impact journals, active research collaborations, and commitment to advancing sustainable energy technologies highlight her as a significant contributor to the global scientific community. With her expertise and drive for innovation, she is poised to make even greater advancements in renewable energy and environmental solutions in the years ahead.

Mr Tommaso Giordano | Risk assessment | Best Researcher Award |

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Mr. Tommaso Giordano | Risk assessment | Best Researcher Award | 

PhD, at Consiglio Nazionale delle Ricerche , Italy

Mr. Tommaso Giordano is a dedicated research fellow at the Institute for Bioeconomy of the National Research Council (CNR-IBE) in Florence, Italy. With a multidisciplinary background spanning environmental engineering and development economics, he is currently pursuing a Ph.D. in Environmental Engineering through the prestigious International Doctorate in Civil and Environmental Engineering program at the University of Florence. His work is rooted in the intersection of urban environmental sustainability, data-driven risk assessment, and geospatial analysis. Mr. Giordano’s research is characterized by a strong commitment to applying statistical and technological tools to address real-world urban challenges.

Professional Profile

Scopus

Orcid

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Education 🎓

Mr. Giordano holds a dual MSc degree in Development Economics from the University of Florence, Italy, and the University of Göttingen, Germany, as part of an esteemed joint program. His academic journey began with a High School Diploma from Liceo Scientifico “Piero Gobetti” and has progressed into doctoral-level research in environmental engineering. His master’s thesis focused on “Environmental regulation and innovation: empirical evidence for plastic,” highlighting his early interest in the interaction between environmental policy and technological development. His ongoing Ph.D. builds upon this interdisciplinary foundation, focusing on environmental modeling and urban sustainability.

Experience 👩‍

Mr. Giordano has served in various research fellow roles at CNR-IBE since March 2021, contributing to urban environmental projects funded by both national and local institutions. His responsibilities have included data collection, advanced statistical processing, geospatial analysis, and socio-economic evaluations for climate and sustainability initiatives. Prior to his research career, he completed a sales assistant internship at IRPLAST SpA, gaining experience in client services and data management systems. His professional background reflects a seamless integration of technical, analytical, and applied economic skills.

Research Interests 🔬

Mr. Giordano’s research primarily explores the application of statistical and geospatial methods to analyze urban environments, assess population risks related to natural and anthropogenic hazards, and evaluate ecosystem services. His work integrates data from IoT sensor networks, satellite imagery, and socio-economic indicators to provide holistic assessments of environmental quality, heat stress, and air pollution in urban settings. He has contributed to key research projects such as “Prato Urban Jungle,” “SMARTCITIES AIRQINO,” and “ADESFUR,” which aim to enhance urban resilience and sustainable planning through advanced data analytics.

Awards 🏆

Although still early in his career, Mr. Giordano has demonstrated noteworthy academic and research excellence. His consistent fellowship appointments at CNR-IBE reflect trust in his capabilities and the value of his contributions. His published research in internationally recognized journals, and his selection for doctoral studies at a competitive international program, further affirm his academic merit and potential as a leading researcher in the field.

Top Noted Publications 📚

Mr. Giordano has co-authored peer-reviewed scientific articles addressing key environmental issues. Notable publications include:

“Assessment of risk components for urban population to heat intensity and air pollution through a dense IoT sensor network” (Urban Climate, 2025), which explores how low-cost sensors can inform climate and health risk assessments in cities.

“Potential of low-cost PM monitoring sensors to fill monitoring gaps in areas of Sub-Saharan Africa” (Atmospheric Pollution Research, 2024), which underscores the global applicability of affordable environmental technologies.

Conclusion

Tommaso Giordano is highly suitable for a Best Researcher Award, particularly if aimed at early-career or emerging researchers in environmental engineering, urban climate, or sustainability science. He brings together technical rigor, societal impact, and cross-disciplinary training in a way that aligns well with current global research priorities.

If the award also values career trajectory, international collaboration, and data-driven innovation, he would be a strong contender. With further leadership, communication, and outreach, he could become a standout figure in urban environmental research in the next few years.