Tag: Environmental Research Award

Satish Bhagwatrao Aher | Environmental Science | Research Excellence Award

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Dr. Satish Bhagwatrao Aher | Environmental Science | Research Excellence Award

ICMR- National Institute for Research in Environmental Health | India

Dr. Satish Bhagwatrao Aher is a dedicated Environmental Scientist currently serving as Scientist-C at the Indian Council of Medical Research–National Institute for Research in Environmental Health (ICMR-NIREH), Bhopal. With a Ph.D. in Environmental Science, his core expertise encompasses atmospheric pollution, environmental health, air quality monitoring, heavy metal exposure assessment, and climate–pollution interactions. Over the last decade, Dr. Aher has significantly contributed to translational research addressing environmental risks and public health burden, particularly in the context of Central India’s industrial and agricultural pollution landscape. Dr. Aher’s scientific output includes more than 30 peer-reviewed publications, with five indexed in PubMed, reflecting steady contributions to environmental monitoring, pollutant behaviour analysis, climate impacts, and exposure-based health risk assessments. His work demonstrates a growing scholarly footprint, reflected in an H-index of 16. He has served as first, last, or corresponding author in several high-impact publications, underscoring his leadership in research execution and scientific communication. His research additionally spans interdisciplinary collaborations with experts in soil science, climate modelling, atmospheric chemistry, and community health systems. As Principal Investigator and Co-Investigator, Dr. Aher has successfully executed multiple large-scale environmental health projects funded by national bodies including ICMR and industrial partners. His portfolio includes research on particulate matter characterization, crop-residue burning, trace metal profiling, respiratory disease epidemiology, environmental exposure in vulnerable populations, and mitigation frameworks for community-scale pollution management. Notably, he is actively involved in the flagship ICMR-funded CRISPI project, examining chronic respiratory disease burden associated with environmental exposures across India. Dr. Aher is also recognized as a Fellow of prestigious scientific bodies including UGC, ICAR-IISS, IIAPC, and ISCA, reflecting his credibility, scientific leadership, and contribution to national research priorities. His work continues to support public health policies, air quality mitigation strategies, and sustainable environmental governance—bridging scientific evidence with societal benefit.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

Aher, S. B., Lakaria, B. L., Kaleshananda, S., Singh, A. B., Ramana, S., Ramesh, K., et al. (2015). Effect of organic farming practices on soil and performance of soybean (Glycine max) under semi-arid tropical conditions in Central India. Journal of Applied and Natural Science, 7(1), 67–71.

Aher, S. B., Sengupta, B., & Bhaveshananda, S. (2012). Organic agriculture: Way towards sustainable development. International Journal of Environmental Sciences, 3(1), 209.

Rajput, P. S., Srivastava, S., Sharma, B. L., Sachidanand, B., Dey, P., Aher, S. B., et al. (2016). Effect of soil-test-based long-term fertilization on soil health and performance of rice crop in Vertisols of Central India. International Journal of Agriculture, Environment and Biotechnology, 9(5).

Aher, S. B., Lakaria, B. L., Swami, K., Singh, A. B., Ramana, S., Thakur, J. K., et al. (2018). Soil microbial population and enzyme activities under organic, biodynamic and conventional agriculture in semi-arid tropical conditions of Central India. Journal of Experimental Biology and Agricultural Science, 6(5), 763–773.

Yashona, D. S., Mishra, U. S., & Aher, S. B. (2018). Response of pulse crops to sole and combined mode of zinc application: A review. Journal of Soils and Crops, 28(2), 249–258.

Van Thinh Nguyen | Environmental Engineering | Best Researcher Award

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Prof. Dr. Van Thinh Nguyen | Environmental Engineering | Best Researcher Award

Department of Civil and Environmental Engineering, Seoul National University, South Korea

Prof. Dr. Van Thinh Nguyen is an accomplished researcher and academic leader renowned for his expertise in hydrodynamics, computational fluid dynamics (CFD), water resource management, and environmental modeling. With a strong foundation in civil and environmental engineering, his research focuses on the development and application of advanced numerical models to address complex hydrological and hydraulic challenges, particularly in flood forecasting, sediment transport, and climate change adaptation. Prof. Nguyen has authored or co-authored 78 scientific publications, which have collectively received over 807 citations, reflecting his significant scholarly influence and international recognition. His H-index of 17 underscores the sustained impact and quality of his research contributions across a range of interdisciplinary domains. Throughout his career, Prof. Nguyen has demonstrated an outstanding ability to integrate theoretical modeling with real-world applications. His work on high-performance environmental simulations and coupled hydrodynamic–atmospheric systems has advanced the understanding of water-related disasters and informed sustainable management practices. He has also been instrumental in developing innovative computational tools, including the SNU-Watershed Simulation (SNU-WS) system, widely used for hydrological predictions and climate resilience studies. His leadership in multi-institutional and international research collaborations has enabled knowledge transfer across regions, contributing to scientific capacity building and the practical application of research outcomes in diverse environmental contexts. Prof. Nguyen’s research has had substantial societal and environmental impact, influencing strategies for flood risk reduction, water resource planning, and climate-resilient infrastructure design. His collaborative engagements with academic, governmental, and industry partners have reinforced his commitment to using science for sustainable development. As an educator and mentor, he continues to inspire young researchers to pursue innovative, interdisciplinary approaches to solving global environmental challenges. Through his dedication to academic excellence, research innovation, and scientific collaboration, Prof. Dr. Van Thinh Nguyen exemplifies the role of a globally engaged scholar whose work bridges theory and practice for the betterment of society.

Profiles: Scopus | ORCID

Featured Publication

  1. Santana, M. B., Halje, P., Simplício, H., Richter, U., Freire, M. A. M., Petersson, P., … & Nicolelis, M. A. L. (2014). Spinal cord stimulation alleviates motor deficits in a primate model of Parkinson disease. Neuron, 84(4), 716–722.

  2. Freire, M. A. M., Guimarães, J. S., Gomes-Leal, W., & Pereira, A. (2009). Pain modulation by nitric oxide in the spinal cord. Frontiers in Neuroscience, 3(2), 175–181.

  3. Freire, M. A. M., Morya, E., Faber, J., Santos, J. R., Guimarães, J. S., Lemos, N. A. M., … & Nicolelis, M. A. L. (2011). Comprehensive analysis of tissue preservation and recording quality from chronic multielectrode implants. PLOS ONE, 6(11), e27554.

  4. Gomes-Leal, W., Corkill, D. J., Freire, M. A. M., Picanco-Diniz, C. W., & Perry, V. H. (2004). Astrocytosis, microglia activation, oligodendrocyte degeneration, and pyknosis following acute spinal cord injury. Experimental Neurology, 190(2), 456–467.

  5. Freire, M. A. M., Rocha, G. S., Bittencourt, L. O., Falcão, D., Lima, R. R., & others. (2023). Cellular and molecular pathophysiology of traumatic brain injury: What have we learned so far? Biology, 12(8), 1139.

Prof. Dr. Van Thinh Nguyen’s work drives global innovation in environmental engineering by integrating advanced computational modeling with sustainable water resource management. His research contributes to climate resilience, disaster mitigation, and eco-efficient infrastructure, empowering science and society to address the pressing challenges of a changing planet.

Carlos Alvarez-Moya | Environmental Science | Best Researcher Award

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Dr. Carlos Alvarez-Moya | Environmental Science | Best Researcher Award

University of Guadalajara, Mexico

Dr. Carlos Alvarez-Moya is a distinguished Professor and Researcher (Titular C) at the University of Guadalajara, Mexico, with over three decades of academic excellence and scientific contribution in the fields of Genetic Toxicology, Molecular Genetics, and Biomedical Sciences. His scholarly pursuits are centered on understanding the mechanisms of genetic damage, mutagenesis, and environmental genotoxicity, with a focus on developing and applying bioassays—such as the Comet Assay—to evaluate DNA damage in animal and plant systems. Throughout his academic career, Dr. Alvarez-Moya has demonstrated a profound commitment to both research and education. He has published over 40 scientific articles in prestigious national and international journals, authored five books, and contributed nine book chapters, making him a leading voice in genetic toxicology research in Latin America. His studies have provided valuable insights into the assessment of genotoxic risk, contributing to public health, environmental safety, and policy-making related to toxic substances. He is an active Member of the Mexican Academy of Sciences and has been recognized as a National Researcher (SNI Level I) by the National System of Researchers (CONACYT), affirming his standing as an influential figure in Mexico’s scientific community. Dr. Alvarez-Moya’s leadership extends beyond research, encompassing curriculum development and academic mentoring, where he has played a vital role in shaping undergraduate and postgraduate programs in genetics and biology. His dedication to education is reflected in his long-standing contribution to teaching subjects such as Genetics, Advanced Genetics, Evolutionary Genetics, and Molecular Biology. His work has earned multiple accolades, including the Premio al Mérito Académico, the Premio COCYTJAL de Ciencia Jalisco, and the CONPPRYT Science Dissemination Award, among others. Beyond academia, his research has tangible societal impact, offering innovative methods for genetic damage detection that aid in environmental monitoring, biomedical applications, and sustainable biotechnology. Through his scientific rigor, mentorship, and vision, Dr. Alvarez-Moya continues to contribute meaningfully to the global advancement of life sciences and environmental genetics.

Profiles: Scopus | ORCID

Featured Publications

  1. Reynoso-Silva, M., Alvarez-Moya, C., Guzmán-Rubio, F. M., Velázquez-Cruz, D. G., Moreno-Del Río, D., Ramírez-Hernández, B. C., Barrientos-Ramírez, L., Vargas-Radillo, J. de J., Gutiérrez-Martínez, P. B., & Ruíz-López, M. A. (2025). Genetic damage to human lymphocytes induced by contaminated water in populations surrounding Lake Chapala and the Santiago River, Jalisco, México. Toxics, 13(10), 887.

  2. Reynoso-Silva, M., Alvarez-Moya, C., Vargas-Radillo, J. de J., Barrientos-Ramírez, L., & Rodríguez-Macías, R. (2024). Genetic damage in human blood cells exposed to germicidal lamps and cytoprotection of ascorbic acid. Revista Biomédica, 35(2).

  3. Alvarez-Moya, C., & Reynoso-Silva, M. (2023). Assessment of genetic damage induced via glyphosate and three commercial formulations with adjuvants in human blood cells. International Journal of Molecular Sciences, 24(5), 4560.

  4. Alvarez Moya, C., Reynoso Silva, M., Barrientos Ramírez, L., & Vargas Radillo, J. de J. (2022). Evaluation of genetic damage and antigenotoxic effect of ascorbic acid in erythrocytes of Orochromis niloticus and Ambystoma mexicanum using migration groups as a parameter. Applied Sciences, 12(15), 7507.

  5. Alvarez-Moya, C., Sámano-León, A. G., Reynoso-Silva, M., Ramírez-Velasco, R., Ruíz-López, M. A., & Villalobos-Arámbula, A. R. (2022). Antigenotoxic effect of ascorbic acid and resveratrol in erythrocytes of Ambystoma mexicanum, Oreochromis niloticus and human lymphocytes exposed to glyphosate. Current Issues in Molecular Biology, 44(5), 151.

Yu Peng | Environmental Science | Best Researcher Award

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Prof. Yu Peng | Environmental Science | Best Researcher Award

Minzu University of China | China

Prof. Yu Peng is a leading scholar in the field of ecology, specializing in biodiversity conservation, landscape ecology, and ecological restoration. His work integrates advanced remote sensing technologies with ecological modeling to evaluate plant diversity across multiple spatial and temporal scales. By combining hyperspectral imagery, UAV data, and landscape metrics, he has developed a systematic approach to address global biodiversity loss and land degradation. His academic contributions span over eighty peer-reviewed publications in high-impact international journals, three scholarly monographs, and several national technical standards. Beyond research, Prof. Yu has been instrumental in guiding young scholars, having supervised postgraduate and undergraduate students who achieved recognition in academic competitions. His expertise bridges fundamental research and applied solutions, contributing to ecological management strategies, climate change impact assessments, and sustainable land-use planning. He has played an active role in professional societies, editorial boards, and policy frameworks, reflecting his dedication to the advancement of ecological sciences. With a balance of research innovation, community leadership, and mentorship, Prof. Yu exemplifies a researcher whose work impacts both academia and society. His strong interdisciplinary approach ensures his contributions remain highly relevant to pressing global environmental challenges.

Professinal Profile

Education

Prof. Yu Peng received rigorous training in ecological science through advanced academic pathways that built a strong foundation for his career in research and innovation. He earned his doctoral degree in ecology from the Chinese Academy of Sciences, where he focused on biodiversity monitoring and ecological modeling using cutting-edge techniques. During his doctoral research, he cultivated expertise in applying remote sensing tools for ecological restoration and biodiversity assessment, positioning himself at the intersection of technology and environmental science. His education emphasized both theoretical ecological frameworks and practical applications in conservation biology. Throughout his academic journey, he engaged in collaborative projects, seminars, and interdisciplinary courses that broadened his understanding of environmental processes at local, regional, and global scales. His training exposed him to multiple disciplines such as geography, environmental science, and information technology, enhancing his ability to conduct cross-disciplinary research. He also benefited from mentorship under senior ecologists, which shaped his skills in fieldwork, data analysis, and scientific communication. This strong educational background empowered him to develop advanced ecological indicators and analytical frameworks. His academic foundation continues to guide his innovative research in biodiversity monitoring, landscape ecology, and ecological restoration, ensuring he remains a leader in his field.

Professional Experience

Prof. Yu Peng has cultivated an extensive professional career characterized by leadership in research, teaching, and scientific community engagement. At the College of Life and Environmental Sciences, Minzu University of China, he serves as a professor dedicated to advancing ecological research and mentoring future scientists. His professional journey includes presiding over multiple national and institutional research projects that address critical ecological issues such as biodiversity conservation, ecological restoration, and climate change impacts. As a researcher, he has contributed significantly to global biodiversity studies by publishing extensively in top-tier international journals. His professional experience also includes developing national technical standards for biodiversity assessment using UAV remote sensing, reflecting his influence beyond academia into policy and practice. In addition to his research achievements, he has guided postgraduate and undergraduate students, many of whom have excelled in research competitions. Prof. Yu has also contributed to the scientific community by serving as Deputy Secretary-General of the Long-term Ecology Special Committee of the Chinese Ecological Society and as Director of the Beijing Biodiversity Research Association. His editorial appointments and active participation as a peer reviewer highlight his integral role in shaping the direction of ecological research at both national and international levels.

Research Interests

Prof. Yu Peng’s research interests span the fields of biodiversity conservation, landscape ecology, and ecological restoration, with a focus on integrating advanced technologies into ecological assessment. He is particularly interested in developing remote sensing indicators for plant diversity monitoring, using hyperspectral and UAV-based data to measure alpha and beta diversity across ecosystems. His studies investigate the interactions between landscape patterns and ecological processes, offering insights into how spatial heterogeneity influences ecological functions and biodiversity resilience. Climate change and its impact on plant communities form another core area of his work, where he examines global trends of biotic homogenization and ecosystem vulnerability. His research also addresses practical challenges in ecological restoration, with case studies in degraded ecosystems such as sandy grasslands. By combining ecological theory with applied methods, he provides frameworks for biodiversity monitoring that inform conservation strategies and sustainable land-use planning. Furthermore, he actively explores the role of landscape connectivity and patch dynamics in supporting ecosystem services and biodiversity stability. His multidisciplinary research bridges ecology, remote sensing, and environmental management, making his contributions highly relevant to global environmental challenges such as climate adaptation, conservation planning, and ecosystem service optimization.

Research Skills

Prof. Yu Peng has developed a comprehensive set of research skills that enable him to conduct advanced ecological studies and contribute to interdisciplinary science. He is highly skilled in remote sensing applications, including the use of hyperspectral and multispectral imagery for ecological monitoring and biodiversity analysis. His expertise extends to UAV-based data collection, spatial modeling, and GIS-based ecological assessments. These technical abilities are complemented by strong analytical skills in ecological statistics, modeling of landscape patterns, and interpretation of biodiversity indicators. He has extensive experience in designing and executing long-term ecological monitoring projects, which involve integrating field surveys with advanced data processing techniques. In addition to technical expertise, Prof. Yu possesses strong academic writing and publication skills, reflected in his numerous contributions to high-impact journals. He is adept at interdisciplinary collaboration, often working across domains such as geography, computer science, and climate research. His leadership in guiding graduate students demonstrates his mentoring and teaching abilities, ensuring knowledge transfer and capacity building. Furthermore, his involvement in developing national technical standards highlights his skill in translating research findings into practical guidelines for ecological management and policy. These combined skills establish him as a versatile and influential ecological researcher.

Awards and Honors

Prof. Yu Peng has been recognized with numerous awards and honors that highlight his contributions to ecological research, teaching, and community service. He was honored as a Wiley China Open Science High Contribution Author, recognizing his impactful publications in international journals. His excellence as a reviewer was acknowledged when he was awarded the Best Reviewer on the 40th anniversary of Acta Ecologica Sinica. His scholarly influence has also been demonstrated through invitations to contribute as guest editor and editorial board member for international journals such as Diversity and The Global Environmental Engineers. In teaching, he received the third prize in a university-level teaching competition, underscoring his effectiveness as an educator. For his contributions to applied research, he received recognition from the State Ethnic Affairs Commission, where his research reports earned the third prize. Beyond individual awards, his patents and software copyrights reflect innovation and practical impact in ecological monitoring and biodiversity assessment. His leadership roles in professional societies, including serving as Deputy Secretary-General of the Long-term Ecology Special Committee of the Chinese Ecological Society and Director of the Beijing Biodiversity Research Association, further affirm his influence and recognition within the scientific community.

Publication Top Notes

  1. Global effects of patch edge on plant species alpha diversity — 2025

  2. Impact of patch edge patterns on plant species beta diversity in global vegetation — 2025 — 2 citations

  3. Climate change increases biotic homogeneity and species alpha diversity in global forests — 2025

  4. Both Current and Historical Landscape Patterns Impact Plant Diversity Across Different Vegetation Types — 2025

  5. Impact of landscape pattern evolution on plant alpha diversity — 2025

  6. High-precision estimation of plant alpha diversity in different ecosystems based on Sentinel-2 data — 2024 — 4 citations

  7. Landscape connection and patch complexity explain plant community similarity in sandy grasslands better than habitat amount and landscape heterogeneity via network analysis — 2024 — 2 citations

Conclusion

Prof. Yu Peng’s academic journey and professional career demonstrate a profound commitment to advancing ecological science through innovation, leadership, and collaboration. His groundbreaking work in developing remote sensing-based indicators has significantly improved biodiversity assessment and ecological restoration practices, contributing both to scientific advancement and policy formulation. By publishing widely in high-impact journals, authoring monographs, and contributing to technical standards, he has established himself as a thought leader in ecology. His mentorship of students reflects his dedication to cultivating future generations of ecologists, ensuring the continuity of research excellence. The honors and awards he has received underscore his influence as a scholar and educator, while his leadership in professional societies reflects his service to the scientific community. His ability to bridge research, teaching, and applied practice positions him as a model academic who contributes both to knowledge generation and societal benefit. Looking ahead, his continued research in biodiversity monitoring, landscape ecology, and climate change will further strengthen global efforts in conservation and sustainability. Prof. Yu Peng’s achievements and potential make him highly deserving of recognition through prestigious awards, confirming his status as an outstanding researcher and academic leader.

Anouar BEN MABROUK | Environmental Science | Best Researcher Award

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Prof. Dr. Anouar BEN MABROUK | Environmental Science | Best Researcher Award

Professor from University of Tabuk, Saudi Arabia

Professor Anouar Ben Mabrouk is a distinguished academic and researcher in mathematics, currently serving at the University of Monastir and the University of Kairouan, Tunisia. He holds full professorial qualifications from both the Tunisian and French Ministries of Higher Education in Pure and Applied Mathematics. With a career spanning over two decades, his research is grounded in advanced mathematical theories and their cross-disciplinary applications. Professor Ben Mabrouk is recognized for his profound contributions to wavelets, fractals, probability, statistics, signal processing, and mathematical models in finance, biology, and the environment. His scholarly output includes over a hundred peer-reviewed publications, multiple book chapters, and extensive teaching across various institutions in Tunisia, Saudi Arabia, and France. His academic roles also extend to thesis supervision at undergraduate, master’s, and Ph.D. levels. In addition to traditional research, he engages with topics like scientific phenomena in the Qur’an and Sunnah, translating key texts from Arabic to English and French. He has played crucial roles in research projects related to sustainability, health modeling, and climate impact. Professor Ben Mabrouk’s academic footprint reflects a commitment to interdisciplinary knowledge creation, curriculum development, and scientific inquiry, marking him as a global contributor to the advancement of mathematical sciences.

Professional Profile

Education

Professor Anouar Ben Mabrouk’s academic journey is marked by excellence and specialization in mathematics. He began with a Bachelor’s degree in Mathematics from the Faculty of Sciences of Monastir in 1995, followed by graduate studies in Mathematics, where he defended his Master’s thesis on the multifractal spectrum of measures in 1998. He earned his Ph.D. in Mathematics from the University of Monastir in 2007, focusing on wavelet analysis of quasi self-similar functions. Furthering his academic distinction, he completed his HDR (Habilitation à Diriger des Recherches) in 2015 at the University of Kairouan, addressing wavelets and nonlinear PDEs. His qualifications have been formally recognized by the Tunisian Ministry of Higher Education and the French Ministry of Higher Education, granting him the title of Full Professor in both Pure and Applied Mathematics in 2019. This dual recognition underlines the international credibility of his educational background. Additionally, he obtained a university diploma in scientific studies in mathematics and physics (1993) and a mathematics-focused Baccalaureate from Tataouine in 1991. This strong academic foundation laid the groundwork for his contributions across mathematics, computational analysis, and interdisciplinary applications.

Professional Experience

Professor Anouar Ben Mabrouk has accumulated a rich and varied professional experience in teaching, research, and academic administration. Over the past two decades, he has served in key roles at several institutions, including the University of Monastir and the Higher Institute of Applied Mathematics and Computer Sciences at the University of Kairouan. His teaching portfolio spans undergraduate to postgraduate levels, covering subjects such as functional analysis, real analysis, numerical methods, differential geometry, fractals, and financial mathematics. He has also taught extensively in Saudi Arabia at Taibah University, Um-Al-Qura University, and Tabuk University, where he contributed to curriculum development, program accreditation, and academic committees. In addition to his teaching commitments, he has served as a supervisor for countless undergraduate, master’s, and doctoral theses. His roles on PhD and HDR committees and scientific research councils demonstrate his leadership in shaping academic programs. Professor Ben Mabrouk has also been involved in several national and international collaborations and scientific committees, particularly in the fields of environmental modeling, smart health systems, and sustainable development. His experience reflects a strong balance between deep academic involvement and applied scientific contributions that address real-world problems.

Research Interests

Professor Ben Mabrouk’s research interests lie at the intersection of advanced mathematics and real-world application domains. His primary focus includes wavelets and fractals, with applications in signal and image processing, financial mathematics, climate science, and biological systems. He is also deeply involved in the study of partial differential equations (PDEs), both from theoretical and numerical perspectives, particularly on fractal domains and with fractal initial data. Another significant interest lies in biomathematics and biostatistics, especially concerning biosignals and bioimages, where his mathematical models support the diagnosis and understanding of physiological phenomena. Furthermore, he has extended his research to the applications of Clifford algebras in signal and image processing, enabling new ways of interpreting multidimensional data. His work also touches on the scientific and mathematical analysis of religious texts, particularly those from the Qur’an and Sunnah, adding a unique dimension to his interdisciplinary profile. He contributes to climate change research by modeling pollution dispersion and sustainable resource management. Professor Ben Mabrouk’s comprehensive and integrative approach to research showcases his commitment to using mathematical tools to address global challenges across health, environment, technology, and culture.

Research Skills

Professor Anouar Ben Mabrouk possesses a broad spectrum of research skills that position him as a leader in interdisciplinary mathematical studies. His expertise includes advanced modeling using wavelets and fractals, statistical analysis, and non-commutative algebra. He is proficient in both analytical and numerical methods for solving partial differential equations, especially in complex domains. His skills also encompass the use of mathematical models for financial systems, environmental impact simulations, and biomedical data processing. In signal and image processing, he employs tools from functional and harmonic analysis, as well as Clifford algebras, to interpret complex datasets. He demonstrates strong abilities in project development and execution, having led and contributed to research funded by the Saudi Research and Development Innovation Authority and other institutions. His experience also includes translating theoretical mathematical constructs into practical applications across sustainability, health monitoring, and resource optimization. Additionally, Professor Ben Mabrouk is adept in scientific writing, publication strategies, and peer-review processes, as evidenced by his roles as editor and reviewer for various academic journals. His supervisory and mentoring capabilities further highlight his strength in academic leadership and capacity-building in research.

Awards and Honors

While specific awards and formal honors are not extensively listed, Professor Ben Mabrouk’s academic distinctions are reflected in the dual recognition of his professorship from both the Tunisian and French higher education authorities—an honor that places him among a select group of internationally certified scholars. He has served as a member of multiple scientific committees and accreditation boards, notably at Tabuk University in Saudi Arabia. His repeated selection for leading roles in research projects funded by government institutions, such as the Saudi Research and Development Innovation Authority, illustrates the trust and recognition he has earned from research funders and academic institutions. Additionally, his contributions to mathematical education and curriculum development across multiple countries underline the esteem in which he is held. His membership in respected bodies such as the Tunisian Mathematical Society and The Asian Council of Science Editors further acknowledges his standing in the academic community. Professor Ben Mabrouk’s extensive publication record, leadership in cross-border academic initiatives, and multidisciplinary engagements are in themselves reflective of significant academic honor and professional respect.

Conclusion

Professor Anouar Ben Mabrouk exemplifies the ideal profile of a globally engaged researcher and educator whose work bridges rigorous mathematical theory with impactful real-world applications. With a foundation grounded in fractals, wavelets, and PDEs, he has extended his scholarship to diverse areas including finance, health, climate, and environmental sustainability. His teaching and mentoring contributions span continents and academic levels, nurturing future generations of mathematicians and interdisciplinary researchers. His involvement in high-impact research projects, curriculum development, and academic leadership underscores his holistic approach to advancing science and education. His dual professorial accreditation from France and Tunisia, combined with his publication record, project leadership, and service on academic committees, positions him as a scholar of high integrity and influence. Professor Ben Mabrouk continues to contribute meaningfully to both theoretical inquiry and applied science, making him a strong candidate for recognition through the Best Researcher Award. His profile represents not just scholarly excellence, but also a commitment to the global advancement of knowledge in mathematics and its real-life applications.

Publications Top Notes

  1. On an assorted nonlinear Schrödinger dynamical system
    Authors: AF Aljohani, S Arfaoui, A Ben Mabrouk
    Journal: Arabian Journal of Mathematics, pp. 1–29

  2. Numerical solution for stochastic mixed nonlinear Schrödinger equation
    Authors: S Arfaoui, AB Mabrouk, C Souissi
    Journal: Bulletin of the Transilvania University of Brasov. Series III: Mathematics

  3. A wavelet time-frequency analysis of pandemic dynamics and impacts—COVID-19 case study
    Authors: A Hamdouni, ME Zidan, A Ben Mabrouk, M Guettari
    Journal: International Journal of Biomathematics

  4. ABS1254-PARE Addressing patients with systemic autoimmune diseases needs through educational booklets: Experience of the Tunisian Association of Young Internists
    Authors: O Dhrif, H Abida, R Abida, W Helali, S Kammoun, F Fatnassi, W Letifi, …
    Journal: Annals of the Rheumatic Diseases 84, p. 1833

  5. Testing for the multifractality in air pollutants time series and application to Tabuk region case study
    Authors: AF Aljohani, AB Mabrouk, M Areshi, J Bouslimi, AH Laatar, AA Shaltout
    Journal: Fractals

  6. Feistel inspired novel hybrid cryptosystem for information secure processing
    Authors: N Aydin, D Behloul, S Benatmane, AB Mabrouk
    Journal: Bulletin of the Transilvania University of Brasov. Series III: Mathematics

  7. A wavelet multifractal model for quality of life index measuring during pandemics and crises
    Authors: MS Balalaa, A Ben Mabrouk
    Journal: Expert Systems 42(1), e13284
    Citations: 5

  8. Heterogeneity of the francophone network and satisfaction of the international
    Authors: O Dhrif, H Abida, F Fatnassi, W Letifi, A Mabrouk
    Journal: La Revue de Médecine Interne 45, A525

  9. A Wavelet Multi-Scale Takagi-Sugeno Fuzzy Approach for Financial Time Series Modeling
    Authors: AB Mabrouk, AM Alanazi, AR Alharbi, A Aljaedi
    Journal: Contemporary Mathematics, pp. 5341–5357

  10. A wavelet modeling of correlated noise in smart health multi-sensors data monitoring
    Authors: AB Mabrouk, Z Bassfar, FS Alshammari, S Bassfar, A Alanazi
    Journal: Fractals, Article ID: 2440055

Rashmi Fotedar | Environmental Science | Best Researcher Award

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Dr. Rashmi Fotedar | Environmental Science | Best Researcher Award

Expert from Ministry of Municipality and Environment, Qatar.

Dr. Rashmi Fotedar is an accomplished microbiologist with over three decades of experience in medical microbiology, molecular biology, and parasitology. With a strong foundation in research and teaching, she has significantly contributed to the scientific community through extensive research on hospital-associated infections, microbial diversity, and marine microbiology. Her work spans across India, Saudi Arabia, Australia, and Qatar, where she has held various academic, research, and leadership positions. Dr. Fotedar has demonstrated expertise in laboratory techniques, microbiological diagnostics, and environmental microbiology, particularly focusing on marine microbial ecosystems. She has published prolifically in peer-reviewed journals, with more than 40 impactful publications and an h-index of 23. Her Google Scholar profile further attests to her long-standing influence in the field. In addition to her research, Dr. Fotedar has provided invaluable teaching and training to undergraduate and postgraduate students, shaping future scientists. She has actively participated in national and international research collaborations and is a member of multiple prestigious scientific societies. Her leadership in establishing the Qatari Culture Collection and securing high-value research grants underlines her capability to lead complex scientific projects. Dr. Fotedar continues to advance microbiological research while contributing to academic excellence and scientific development globally.

Professional Profile

Education

Dr. Rashmi Fotedar holds a Ph.D. in Medical Microbiology from the All India Institute of Medical Sciences (AIIMS), New Delhi, India, where she specialized in hospital-associated fungal infections in immunocompromised patients. This doctoral research laid the foundation for her deep involvement in medical mycology and infectious diseases. Additionally, she earned a Master of Science degree in Medical Microbial Biotechnology from the University of Technology, Sydney, Australia, where she gained advanced skills in the molecular identification of parasitic infections using contemporary techniques. To further enhance her interdisciplinary expertise, Dr. Fotedar underwent specialized training in bioinformatics at the University of Sydney, Australia. Her international educational background combines the strengths of rigorous laboratory research and cutting-edge molecular technologies. She has also participated in specialized international courses such as the Yeast Molecular Genetics program at ICGEB, Trieste, Italy, and the ANGIS Applied Bioinformatics workshop in Australia. These diverse educational experiences have equipped her with a comprehensive skill set that integrates microbiology, molecular biology, and bioinformatics. This solid academic foundation has enabled Dr. Fotedar to pursue complex research in clinical and environmental microbiology, contributing substantially to the fields of infectious diseases and microbial ecology.

Professional Experience

Dr. Rashmi Fotedar’s professional journey spans over 30 years, encompassing roles in teaching, research, and scientific leadership across multiple countries. Since 2012, she has been serving as an Expert in the Department of Genetic Engineering at the Biotechnology Centre in Doha, Qatar, where she is in charge of the Microbiology Unit. Her work involves applying for and managing research grants, training researchers, and curating the Qatari Culture Collection of marine microorganisms. Prior to this, from 2008 to 2012, she worked as a scientist on an independent NHMRC-funded project in Australia focused on the molecular epidemiology of Neisseria gonorrhoea. Between 2004 and 2007, she was a Demonstrator at the University of Technology Sydney, providing theoretical and practical microbiology education. Her earlier roles include Research Scientist at Westmead Hospital, Sydney, and Specialist in Microbiology at King Khalid University Hospital, Saudi Arabia. Dr. Fotedar began her career as a Junior Research Fellow at AIIMS, New Delhi, and progressed through roles as Senior Research Fellow and Research Associate. Across these positions, she has consistently contributed to clinical microbiology, epidemiological studies, and marine microbial research, while also actively engaging in student mentorship and laboratory management.

Research Interests

Dr. Rashmi Fotedar’s research interests encompass a wide spectrum within microbiology, with a primary focus on medical microbiology, molecular diagnostics, and environmental microbiology. Her early work centered on hospital-associated fungal infections, parasitic infections, and the molecular epidemiology of infectious diseases. Over time, her interests have evolved to include marine microbial diversity, hypersaline ecosystems, and the role of microorganisms in environmental preservation. She has made significant contributions to the isolation, identification, and characterization of novel marine fungi and bacteria, leading to the discovery and naming of new microbial species. Her work on microbial stabilization of mobile dunes and monitoring of pathogens in coastal waters reflects her strong commitment to addressing environmental and public health challenges. Dr. Fotedar’s research integrates genomics, metagenomics, and conventional culturing methods to understand microbial ecosystems in extreme environments. She is also keenly interested in bioinformatics applications, microbial culture preservation, and advancing molecular techniques for pathogen detection. Her multidisciplinary approach positions her at the forefront of microbiology research with both clinical and ecological relevance, contributing to our understanding of microbial diversity and its impact on human health and the environment.

Research Skills

Dr. Rashmi Fotedar possesses an extensive array of research skills spanning molecular biology, microbiology, and bioinformatics. Her technical expertise includes DNA extraction, PCR, real-time PCR, sequencing, cloning, restriction digestion, and gel electrophoresis. She is proficient in culture techniques for bacteria, fungi, and parasites, as well as antibiotic sensitivity testing using both conventional and automated methodologies. Dr. Fotedar has mastered the isolation and identification of microorganisms from clinical, soil, and marine environments and has significant experience in the maintenance and preservation of bacterial and fungal cultures, including database management. She received specialized training at CBS, Netherlands, in fungal preservation techniques, which she applies in her role as curator of the Qatari Culture Collection. Her bioinformatics training supports her genomic and metagenomic analyses, adding depth to her microbiological research. Additionally, she has a strong command of microbiological safety protocols and occupational health procedures. Dr. Fotedar’s teaching skills are complemented by her laboratory expertise, making her highly effective in both educational and research settings. Her ability to manage large, multidisciplinary projects, combined with her analytical mindset and collaborative spirit, further solidify her reputation as a highly skilled researcher in her field.

Awards and Honors

Dr. Rashmi Fotedar has received numerous prestigious grants and recognitions throughout her career, underscoring her scientific leadership and research excellence. She was awarded several major research grants by the Qatar National Research Fund, including projects on microbial diversity in the Arabian Gulf, pathogen detection in coastal waters, and microbial stabilization of mobile dunes, with total funding exceeding USD 2 million. Her leadership in these projects demonstrates her ability to attract significant research investment and manage complex scientific studies. She also secured an independent research grant from the National Health and Medical Research Council (NHMRC) in Australia for a molecular epidemiological study, highlighting her international research impact. Dr. Fotedar was the recipient of an Australian Postgraduate Award funded by the Commonwealth Government of Australia, which supported her advanced research training. Earlier in her career, she received independent fellowships from India’s Council of Scientific and Industrial Research (CSIR) and the Indian Council of Medical Research (ICMR), recognizing her potential as an emerging scientist. Her long-standing memberships in renowned scientific societies and active roles in peer-review and editorial boards further validate her esteemed position in the scientific community. These accolades collectively affirm Dr. Fotedar’s distinguished contributions to microbiological research.

Conclusion

Dr. Rashmi Fotedar exemplifies the qualities of a world-class researcher, combining scientific excellence, teaching dedication, and leadership in microbiology. Her extensive academic qualifications, international research experience, and sustained contributions to both clinical and environmental microbiology underscore her impact on the scientific community. Throughout her career, she has demonstrated a strong commitment to the advancement of molecular diagnostics, microbial ecology, and pathogen discovery. Dr. Fotedar’s ability to lead multidisciplinary teams, secure high-value research funding, and mentor the next generation of scientists reflects her capability to drive meaningful scientific progress. She has contributed significantly to the identification of novel microbial species, particularly from marine and hypersaline environments, expanding our understanding of microbial biodiversity. Her involvement in prestigious editorial boards and peer review panels further amplifies her influence in shaping microbiological research worldwide. Dr. Fotedar’s outstanding publication record, coupled with her scientific leadership and dedication to teaching, positions her as a highly deserving candidate for recognition. Moving forward, expanding her global collaborations and increasing her involvement in public engagement activities could further elevate her already remarkable career. Overall, Dr. Rashmi Fotedar’s professional journey makes her a strong and worthy contender for the Best Researcher Award.

Publications Top Notes

1. Laboratory Diagnostic Techniques for Entamoeba Species

  • Authors: R. Fotedar, D. Stark, N. Beebe, D. Marriott, J. Ellis, J. Harkness

  • Journal: Clinical Microbiology Reviews 20 (3), 511-532

  • Year: 2007

  • Citations: 694

2. Cockroaches (Blattella germanica) as Carriers of Microorganisms of Medical Importance in Hospitals

  • Authors: R. Fotedar, U.B. Shriniwas, A. Verma

  • Journal: Epidemiology & Infection 107 (1), 181-187

  • Year: 1991

  • Citations: 231

3. PCR Detection of Entamoeba histolytica, Entamoeba dispar, and Entamoeba moshkovskii in Stool Samples From Sydney, Australia

  • Authors: J.L.H. R. Fotedar, Stark, N. Beebe, D. Marriott, J. Ellis

  • Journal: Journal of Clinical Microbiology

  • Year: 2007

  • Citations: 221

4. Vector Potential of Houseflies (Musca domestica) in the Transmission of Vibrio cholerae in India

  • Authors: R. Fotedar

  • Journal: Acta Tropica 78 (1), 31-34

  • Year: 2001

  • Citations: 203

5. Ochratoxin Production and Taxonomy of the Yellow Aspergilli (Aspergillus Section Circumdati)

  • Authors: C.M. Visagie, J. Varga, J. Houbraken, M. Meijer, S. Kocsubé, N. Yilmaz, et al.

  • Journal: Studies in Mycology 78, 1-61

  • Year: 2014

  • Citations: 193

6. Amoebiasis: Current Status in Australia

  • Authors: S.J. van Hal, D.J. Stark, R. Fotedar, D. Marriott, J.T. Ellis, J.L. Harkness

  • Journal: Medical Journal of Australia 186 (8), 412-416

  • Year: 2007

  • Citations: 139

7. The Housefly (Musca domestica) as a Carrier of Pathogenic Microorganisms in a Hospital Environment

  • Authors: R. Fotedar, U. Banerjee, S. Singh, A.K. Verma

  • Journal: Journal of Hospital Infection 20 (3), 209-215

  • Year: 1992

  • Citations: 129

8. Prevalence of Enteric Protozoa in HIV-Positive and HIV-Negative Men Who Have Sex With Men From Sydney, Australia

  • Authors: D. Stark, R. Fotedar, S. Van Hal, N. Beebe, D. Marriott, J.T. Ellis, J. Harkness

  • Journal: The American Journal of Tropical Medicine and Hygiene 76 (3), 549-552

  • Year: 2007

  • Citations: 126

9. Comparison of Stool Antigen Detection Kits to PCR for Diagnosis of Amebiasis

  • Authors: D. Stark, S. Van Hal, R. Fotedar, A. Butcher, D. Marriott, J. Ellis, J. Harkness

  • Journal: Journal of Clinical Microbiology 46 (5), 1678-1681

  • Year: 2008

  • Citations: 120

10. Entamoeba moshkovskii Infections in Sydney, Australia

  • Authors: J.E.J.H. R. Fotedar, D. Stark, D. Marriott

  • Journal: European Journal of Clinical Microbiology and Infectious Disease

  • Year: 2008

  • Citations: 104

 

 

Zhao Hu | Environmental Science | Best Researcher Award

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Dr. Zhao Hu | Environmental Science | Best Researcher Award

Guizhou University, China

Zhao Hu is an emerging researcher in the field of photocatalysis and environmental chemistry with a strong focus on sustainable energy and advanced catalytic materials. His research primarily addresses environmental challenges through innovative photocatalytic processes for pollutant degradation, CO₂ reduction, water splitting, and hydrogen production. Zhao Hu has made significant contributions to the development of Z-scheme heterojunctions, defect engineering, and advanced catalytic designs that have achieved notable results in photocatalytic efficiency and stability. With 22 published articles in top-tier international journals, his work is well-cited and contributes valuable knowledge to the scientific community. Zhao Hu’s research stands out for its practical relevance, targeting real-world environmental issues with highly efficient and novel solutions. In addition to his research productivity, Zhao Hu has participated in peer-review activities, further demonstrating his academic recognition. His progressive contributions are paving the way for next-generation environmental remediation technologies. Zhao Hu’s consistent publication trajectory and focus on impactful research indicate his potential for leadership in his field. With continued dedication, he is poised to make further significant contributions to science and technology on both national and international levels.

Professional Profile

Education

Zhao Hu is currently pursuing his education at Guizhou University, Guiyang, China, where he has been enrolled since September 2021. His academic background is deeply rooted in materials science, chemistry, and environmental engineering, with a specialized focus on photocatalytic applications. His educational journey is strongly aligned with his research interests, allowing him to contribute novel solutions to energy and environmental challenges. Guizhou University has provided Zhao Hu with a strong research platform and exposure to advanced laboratory techniques and interdisciplinary collaboration. Through rigorous coursework and hands-on research, Zhao Hu has developed a solid theoretical and practical foundation in catalysis, nanomaterials, and photochemical processes. His education has been instrumental in shaping his expertise in designing and characterizing complex photocatalytic systems. The academic environment at Guizhou University, coupled with Zhao Hu’s determination and curiosity, has equipped him with essential problem-solving skills and analytical abilities. As he continues his education, Zhao Hu remains committed to applying his knowledge to address pressing environmental concerns and contribute to sustainable technological advancements. His educational track record reflects both academic excellence and a clear research-driven focus.

Professional Experience

Zhao Hu’s professional experience is predominantly research-intensive, with a strong emphasis on environmental photocatalysis and advanced material synthesis. Since 2021, Zhao Hu has been actively involved in academic research at Guizhou University, where he has significantly contributed to various photocatalytic projects focused on pollutant degradation, water splitting, CO₂ reduction, and hydrogen production. He has independently conducted experimental studies, developed novel photocatalytic materials, and collaborated on multi-authored research papers published in internationally recognized journals such as Applied Catalysis B: Environmental, Journal of Colloid and Interface Science, Advanced Functional Materials, and Chemical Science. Zhao Hu has also participated in peer-review activities, including work for the Alexandria Engineering Journal, demonstrating his growing recognition in the scientific community. His research experience encompasses catalyst design, surface chemistry, interfacial engineering, and reaction mechanism exploration. Although his career is still in its early stages, Zhao Hu’s hands-on involvement in experimental planning, data interpretation, and scholarly publication showcases a high level of professional maturity and dedication. His continuous engagement in cutting-edge research places him on a promising trajectory to become a leading expert in his field.

Research Interests

Zhao Hu’s research interests lie at the intersection of photocatalysis, environmental remediation, and sustainable energy solutions. His work primarily focuses on the design and fabrication of advanced photocatalytic materials capable of addressing critical environmental challenges such as air and water pollution, CO₂ emissions, and energy scarcity. He is particularly interested in Z-scheme heterojunctions, defect engineering, and the rational design of nanostructured catalysts that enable efficient visible-light-driven photocatalytic processes. Zhao Hu has a deep interest in exploring reaction mechanisms, surface electron dynamics, and the role of atomic-level modifications to enhance photocatalytic selectivity and stability. His studies also extend to the photocatalytic oxidation of nitrogen oxides (NOx), hydrogen production through water splitting, and photocatalytic CO₂ reduction. Zhao Hu is driven by the goal of developing eco-friendly, high-performance catalytic systems that can be scaled for practical applications in pollution control and renewable energy generation. His research approach combines experimental work with material characterization and reaction pathway analysis to provide comprehensive solutions to pressing environmental problems. Zhao Hu’s research interests are well aligned with global sustainability goals and contribute significantly to the advancement of green technologies.

Research Skills

Zhao Hu possesses a comprehensive set of research skills that enable him to excel in the field of environmental photocatalysis. He is highly proficient in the synthesis of nanostructured photocatalytic materials, including the fabrication of Z-scheme heterojunctions, defect-engineered semiconductors, and atomically dispersed metal catalysts. His skills extend to advanced material characterization techniques, allowing him to investigate surface morphology, electronic structures, and catalytic activity with precision. Zhao Hu is experienced in conducting photocatalytic experiments for pollutant degradation, CO₂ reduction, and hydrogen production under visible-light irradiation. His expertise also includes surface chemistry manipulation, reaction mechanism analysis, and the design of interfacial electron transfer systems to optimize photocatalytic efficiency. Additionally, Zhao Hu is capable of conducting electrochemical measurements to study catalyst stability and performance. His technical skills are complemented by his ability to critically interpret experimental data, publish high-quality research papers, and participate in the peer-review process. Zhao Hu’s multidisciplinary skill set enables him to develop practical solutions for environmental remediation and contribute to the growing body of knowledge in sustainable energy research.

Awards and Honors

Although specific awards and honors are not detailed in the provided profile, Zhao Hu’s consistent publication in top-tier journals and participation in the peer-review process suggest that he is gaining recognition within the scientific community. His contributions to journals such as Advanced Functional Materials, Applied Catalysis B: Environmental, and Chemical Science demonstrate the high quality and impact of his research. Zhao Hu’s inclusion as a peer reviewer for the Alexandria Engineering Journal indicates trust and acknowledgment from fellow researchers and editorial boards. His work on groundbreaking photocatalytic designs and environmental remediation techniques positions him as a strong candidate for future research awards, scholarships, and professional honors. As his career progresses, Zhao Hu is expected to accumulate accolades that will further validate his contributions to science and engineering. His current achievements reflect an upward trajectory and establish a solid foundation for future recognition in national and international academic platforms. Zhao Hu’s growing reputation and publication excellence underscore his potential to become a highly decorated researcher in his domain.

Conclusion

Zhao Hu is a dedicated and impactful researcher whose contributions to photocatalysis and environmental chemistry address some of the most pressing challenges of our time. His innovative approaches in designing advanced photocatalytic materials, coupled with a strong focus on energy efficiency and environmental protection, position him as a valuable asset to the scientific community. Zhao Hu’s comprehensive research portfolio demonstrates originality, technical depth, and practical relevance. His ongoing academic journey and active participation in peer-review activities highlight his commitment to advancing the field and maintaining high research standards. To further enhance his profile, Zhao Hu could benefit from engaging in international collaborations, leading large-scale projects, and participating in professional societies and academic conferences. Expanding his involvement in academic leadership and student mentorship would also contribute positively to his long-term academic impact. Overall, Zhao Hu has established a solid foundation for a successful research career and is well-suited for prestigious research awards and future academic honors. His potential for growth and continued contribution to sustainable environmental solutions make him a strong contender for the Best Researcher Award.

Publications Top Notes

  1. Yan Wang, Yan Ma, Shenghong Ding, Zhoujun Yin, You-Nian Liu, Zhao Hu2025

    • Unprecedented stability for photocatalytic selective oxidation of NO achieved by targeted construction of extraction-electron-surface and capture-hole-subsurface sites

  2. Zhiping Yang, Hongmei Xiao, Yudie Mao, Hai Zhang, Yixin Lu, Zhao Hu2024

    • Amplifying chlorinated phenol decomposition via Dual-Pathway O2 Activation: The impact of zirconium loading on BiOCl

  3. Yujiao Zhang, Yan Wang, Zhao Hu, Jinshu Huang, Song Yang, Hu Li2024

    • High-efficiency photocatalytic CO2 reduction enabled by interfacial Ov and isolated Ti3+ of g-C3N4/TiO2 Z-scheme heterojunction

  4. Ling Pu, Jiying Wang, Zhao Hu, Yujiao Zhang2023

    • Universal Water Disinfection by the Introduction of Fe–N3 Traps between g-C3N4 Layers under Visible Light

  5. Yan Wang, Zhao Hu, Wei Wang, Yanan Li, Haichuan He, Liu Deng, Yi Zhang, Jianhan Huang, Ning Zhao, Guipeng Yu et al.2023

    • Rational design of defect metal oxide/covalent organic frameworks Z-scheme heterojunction for photoreduction CO2 to CO

  6. Yujiao Zhang, Zhao Hu, Heng Zhang, Hu Li, Song Yang2023

    • Uncovering Original Z Scheme Heterojunctions of COF/MOx (M = Ti, Zn, Zr, Sn, Ce, and Nb) with Ascendant Photocatalytic Selectivity for Virtually 99.9% NO‐to‐NO3− Oxidation

  7. Yujiao Zhang, Yan Wang, Dan Zhao, Baoyu Wang, Ling Pu, Meng Fan, Xingtang Liang, Yanzhen Yin, Zhao Hu, Ximing Yan2022

    • Visible light in situ driven electron accumulation at the Ti–Mn–O3 sites of TiO2 hollow spheres for photocatalytic hydrogen production

  8. Zhao Hu2022

    • Atomic Ti-Nx sites with switchable coordination number for enhanced visible-light photocatalytic water disinfection

  9. Baoyu Wang, Xiandong Guo, Yujiao Zhang, Yan Wang, Guiqiu Huang, Huixia Chao, Weijian Wang, Zhao Hu, Ximing Yan2022

    • Extraordinary Promotion of Visible-Light Hydrogen Evolution for Graphitic Carbon Nitride by Introduction of Accumulated Electron Sites (BN2)

  10. Zhao Hu2021

  • Boosting the electrochemical performance of hematite nanorods via quenching-induced metal single atom functionalization

Jingying Mao | Environmental Science | Women Researcher Award

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Dr. Jingying Mao | Environmental Science | Women Researcher Award

Deputy Director from Scientific Research Academy of Guangxi Environmental Protection, China

Jingying Mao is a Senior Engineer at the Guangxi Environmental Protection Scientific Research Institute, specializing in atmospheric environment and climate change. With a strong educational foundation in ecology and environmental engineering, Mao has developed extensive expertise in air pollution control, atmospheric chemical modeling, and climate impact assessments. Over the years, Mao has significantly contributed to the understanding of aerosol formation, ozone control strategies, and pollutant transport mechanisms in various regional and global contexts. Her leadership in multiple National Natural Science Foundation projects and provincial scientific initiatives demonstrates her capacity for high-level scientific research and project management. Mao’s representative works have been published in internationally recognized journals such as Journal of Geophysical Research: Atmospheres, Science of the Total Environment, and Elementa: Science of the Anthropocene. She has also played key roles in collaborative studies addressing complex air quality issues in China. Her research achievements have been acknowledged through several provincial awards, including second-class prizes in Guangxi Science and Technology Progress. Through her rigorous scientific contributions and dedication to environmental protection, Mao has become a respected figure in the atmospheric science community, making meaningful strides in pollution control and climate impact research.

Professional Profile

Education

Jingying Mao holds a Ph.D. in Ecology from Jinan University (2017–2021), where she deepened her expertise in atmospheric sciences and climate interactions. She completed her Master’s degree in Environmental Engineering at Southwest Jiaotong University (2009–2012), focusing on advanced environmental protection techniques and pollution management. Her undergraduate studies were conducted at Guangxi Normal College (2005–2009), where she earned a Bachelor’s degree in Environmental Science, laying the foundational knowledge in environmental systems and resource management. Throughout her academic journey, Mao demonstrated a consistent focus on environmental issues, particularly air pollution and climate dynamics, which shaped her professional path toward becoming a leading researcher in atmospheric environment and climate change. Her educational background is distinguished by a clear progression toward specialization in air quality modeling, atmospheric chemistry, and pollutant mitigation strategies.

Professional Experience

Mao Jingying currently serves as a Senior Engineer at the Guangxi Environmental Protection Scientific Research Institute’s Atmospheric Environment and Climate Change Research Center (since December 2022). Before this, she held the role of Engineer within the same center from December 2021 to November 2022 and at the Atmospheric Environment Research Center from July 2015 to July 2017. Her initial position at the institute was within the Environmental Analysis and Heavy Metal Pollution Control Center from July 2012 to June 2015. Across these roles, Mao has accumulated over a decade of experience in atmospheric pollution monitoring, climate modeling, and the development of emission reduction strategies. Her responsibilities have included leading major research projects, contributing to national and provincial environmental initiatives, and publishing impactful research in prestigious journals. Mao’s consistent career trajectory within the Guangxi Environmental Protection Scientific Research Institute illustrates her deep-rooted commitment to environmental improvement and scientific advancement.

Research Interests

Jingying Mao’s primary research interests include atmospheric chemistry, air quality modeling, secondary organic aerosol (SOA) formation, and the impacts of climate change on atmospheric processes. She is particularly focused on the temporal and spatial distribution of IEPOX-SOA (isoprene epoxydiol-derived SOA) in the troposphere and its radiative effects, which she investigates through numerical simulations. Mao is also engaged in studying nitrate aerosols in the stratosphere and their influence on climate dynamics. Her work extends to the development of coordinated emission reduction strategies and the assessment of pollutant sources through both field measurements and chemical transport models. Mao’s studies on ozone control strategies and pollutant transport mechanisms aim to provide actionable solutions for urban and regional air quality management. Her diverse research portfolio contributes significantly to the broader understanding of atmospheric processes and their environmental consequences.

Research Skills

Mao Jingying possesses advanced research skills in atmospheric chemical transport modeling using tools like WRF-Chem and MOSAIC, chemical characterization of aerosols, and source apportionment techniques. She is proficient in designing and conducting large-scale environmental monitoring campaigns, analyzing time-resolved aerosol data, and integrating field observations with numerical simulations. Mao’s expertise also includes regional climate impact assessments, chemical data interpretation, and multi-pollutant control strategy evaluation. Her strong analytical abilities are complemented by a solid understanding of environmental policy and regulatory frameworks, which enhances her capacity to develop practical solutions for air pollution control. Additionally, Mao’s collaborative research experience and multidisciplinary approach have enabled her to address complex atmospheric challenges effectively.

Awards and Honors

Jingying Mao has received several notable scientific recognitions at the provincial level. She was awarded the Guangxi Science and Technology Progress Award (Second Class) in 2023 for her contribution to regional atmospheric research and pollution control strategies. In 2019, she was honored again by the Guangxi People’s Government for her involvement in collaborative air quality studies. Additionally, she received the Guangxi Social Science Excellent Achievement Award in 2018 for her multi-authored research addressing environmental challenges in the region. These accolades highlight her impactful contributions to both scientific advancement and environmental protection in Guangxi. Mao’s continuous recognition through competitive awards reflects her dedication, innovative research, and leadership in atmospheric science.

Conclusion

Jingying Mao is a highly qualified atmospheric scientist with substantial expertise in air pollution modeling, aerosol chemistry, and climate impact studies. Her educational background, professional experience, and successful leadership in both national and regional research projects position her as a valuable contributor to the field of atmospheric environment and climate change. Mao’s research is not only scientifically rigorous but also practically oriented, focusing on developing strategies for pollution control and environmental sustainability. Her recognized contributions and award-winning projects demonstrate her influence and growing leadership within the scientific community. Moving forward, Mao is well-positioned to expand her research on the interaction between atmospheric processes and climate dynamics, furthering her contributions to solving pressing environmental issues.

Publications Top Notes

  • Pollution characteristics of peroxyacetyl nitrate in karst areas in Southwest China

    • Authors: Songjun Guo, Xu Wei, Hongjiao Li, Wen Qin, Yijun Mu, Jiongli Huang, Chuan Nong, Junchao Yang, Dabiao Zhang, Hua Lin, Jingying Mao

    • Year: 2023

  • Ozone control strategies for local formation- and regional transport-dominant scenarios in a manufacturing city in southern China

    • Authors: Jingying Mao, Fenghua Yan, Lianming Zheng, Yingchang You, Weiwen Wang, Shiguo Jia, Wenhui Liao, Xuemei Wang, Weihua Chen

    • Year: 2022

  • Evaluation of Biogenic Organic Aerosols in the Amazon Rainforest Using WRF‐Chem With MOSAIC

    • Authors: Jingying Mao, Luxi Zhou, Liqing Wu, Weihua Chen, Xuemei Wang, Pengfei Yu

    • Year: 2021

  • Comparative study of chemical characterization and source apportionment of PM2.5 in South China by filter-based and single particle analysis

    • Authors: Jingying Mao, Liming Yang, Zhaoyu Mo, Zongkai Jiang, Padmaja Krishnan, Sayantan Sarkar, Qi Zhang, Weihua Chen, Buqing Zhong, Yuan Yang

    • Year: 2021

  • A Comparative Study on Air Pollution Characteristics in Four Key Cities during 2013 in Guangxi Province, China

    • Authors: Jing-Ying Mao, Zhi-Ming Chen, Zong-Kai Jiang, Zhao-Yu Mo, Hong-Jiao Li, Fan Meng, Bei Chen, Hui-Jiao Ling, Hong Li

    • Year: 2021

  • Highly time-resolved aerosol characteristics during springtime in Weizhou Island

    • Authors: Jingying Mao, Zhiming Chen, Zhaoyu Mo, Xiaoyang Yang, Hong Li, Yonglin Liu, Huilin Liu, Jiongli Huang, Junchao Yang, Hongjiao Li

    • Year: 2018

Xinjian Fan | Environmental Science | Best Researcher Award

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Mr. Xinjian Fan | Environmental Science | Best Researcher Award

Associate Professor from Lanzhou University of Technology, China

Dr. Fan Xinjian is an esteemed associate professor and master’s supervisor specializing in water conservancy and hydropower engineering. He currently serves as the Director of the Department of Water Conservancy and Hydropower Engineering at Lanzhou University of Technology. A graduate with a Ph.D. in Engineering from the Nanjing Hydraulic Research Institute, Dr. Fan has significantly contributed to the academic and professional landscape of hydraulic engineering in China. With a research portfolio spanning over 50 national, provincial, and enterprise-level projects, his work has brought forth practical solutions to some of the field’s most complex problems, including high arch dam flood discharge and energy dissipation mechanisms. As a dedicated educator, he integrates scientific research with hands-on learning experiences for students, having led numerous teaching and innovation projects. His contribution is well-recognized through various awards and honors in both research and teaching. Dr. Fan’s expertise in ecological hydraulics, computational hydraulics, and sediment dynamics makes him a leading authority in his field. His profile is a model of how academic leadership, research excellence, and practical application can come together to support national infrastructure and environmental goals, making him a strong candidate for the Best Researcher Award.

Professional Profile

Education

Dr. Fan Xinjian holds a Doctorate in Engineering from the prestigious Nanjing Hydraulic Research Institute. His advanced education laid a strong foundation in the theoretical and applied aspects of water resources and hydraulic engineering. At the doctoral level, he received specialized training in computational and ecological hydraulics, river basin management, sediment transport dynamics, and energy dissipation mechanisms. His academic training was reinforced with hands-on research experience, equipping him to tackle real-world engineering problems with a research-driven approach. Dr. Fan’s formal education combined rigorous academic coursework with practical application, which played a key role in developing his expertise in high-head hydropower systems, open channel flow analysis, and hydraulic structure optimization. The interdisciplinary exposure during his Ph.D. has enabled him to effectively bridge theory and practice, particularly in hydrological modeling, flow dynamics, and flood risk mitigation. His educational background continues to inform his ongoing research, teaching, and innovation work, as he trains the next generation of hydraulic engineers. His ability to translate complex hydraulic theories into practical designs and policies is a direct reflection of the quality of education he received and the dedication he has shown throughout his academic journey.

Professional Experience

Dr. Fan Xinjian brings over two decades of academic and research experience in hydraulic and water resources engineering. He serves as the Director of the Department of Water Conservancy and Hydropower Engineering at Lanzhou University of Technology. He also leads the provincial experimental teaching demonstration center and coordinates the Hongliu First-Class Major in Water Conservancy and Hydropower Engineering. His professional journey includes leadership of more than 50 national and provincial-level projects, including the National Natural Science Foundation, National Science and Technology Support Plan, and international cooperative research initiatives. Dr. Fan is a member of key professional bodies such as the Chinese Hydraulic Society, the Gansu Hydraulic Society, and the Chinese Hydropower Engineering Society. In his academic capacity, he has developed and delivered core undergraduate and graduate-level courses, including “Introduction to Water Conservancy Engineering” and “Hydraulic Structures.” He has also supervised numerous graduation theses, practical internships, and student design projects. His leadership in project management, educational innovation, and engineering applications exemplifies a strong blend of research, teaching, and community engagement. Dr. Fan’s professional experience highlights his comprehensive understanding of the hydraulic engineering landscape, making him a well-respected figure in both academic and engineering circles.

Research Interest

Dr. Fan Xinjian’s primary research interests lie in the fields of computational hydraulics, ecological hydraulics, hydraulic structures, and river basin sediment dynamics. His research is driven by the need to address real-world water conservancy challenges, especially in mountainous terrains and regions with high-head dams. One of his key interests is the study and optimization of flood discharge and energy dissipation systems for large-scale hydropower structures. He has made significant contributions to this area through research on the Jinping I high arch dam and Longkoukou dam systems. His work extends to understanding the interactions between water and vegetation in open channels, particularly under the influence of submerged flexible vegetation. This research sheds light on resistance, flow patterns, and sediment transport—critical elements for ecological conservation and hydraulic modeling. He is also keenly interested in developing digital simulation systems that integrate ecological and engineering hydraulics for better river management. These interests align closely with the pressing global issues of sustainable water infrastructure, flood management, and river ecosystem restoration. Dr. Fan’s multi-disciplinary approach enables him to contribute novel insights and engineering solutions that combine hydrodynamics, environmental science, and computational modeling.

Research Skills

Dr. Fan Xinjian possesses a broad range of research skills that enable him to approach hydraulic engineering problems from both theoretical and applied perspectives. He is highly proficient in computational modeling and simulation, which he uses to analyze complex water flow and energy dissipation systems. His skills include the development of numerical models to assess flood discharge, turbulence, and sediment transport in both natural and engineered waterways. He is adept at laboratory-based experimental research, having led physical modeling studies on high-velocity flow and bottom plate energy dissipation devices. In addition, Dr. Fan is skilled in data analysis, using modern hydraulic measurement tools and statistical software to interpret flow dynamics and optimize hydraulic structures. He also has experience in drafting technical reports, scientific papers, and patent documentation. With strong collaborative abilities, he has coordinated interdisciplinary projects involving engineers, ecologists, and government agencies. His grant writing skills have helped secure major national and provincial funding. Dr. Fan’s mentorship abilities further amplify his research capacity, as he actively involves students in experimentation, fieldwork, and competitions. His wide-ranging skill set allows him to produce high-impact research with direct applications in dam safety, environmental conservation, and water resource management.

Awards and Honors

Dr. Fan Xinjian has received multiple prestigious awards in recognition of his outstanding contributions to research and teaching in hydraulic engineering. His research has been honored with three first prizes and one second prize from the Gansu Water Conservancy Science and Technology Progress Awards, reflecting the practical impact and innovation of his work. In the educational domain, he has secured two second prizes in provincial and ministerial teaching achievement awards, in addition to a third prize in the National University Teachers’ Teaching Innovation Competition. His recognition extends to intellectual property as well, with three national invention patents, five utility model patents, and one software copyright, showcasing his inventive and solutions-oriented research approach. Beyond formal awards, Dr. Fan has earned distinctions such as the Teaching Excellence Award, Graduation Design Outstanding Instructor Award, Teaching Quality Excellence Award, and the Three Education Awards. He has also led student teams to win more than 20 national and provincial science and technology innovation competitions, highlighting his excellence in student mentorship. These accolades not only affirm his research excellence but also his holistic contributions to education, innovation, and professional development in hydraulic engineering.

Conclusion

Dr. Fan Xinjian exemplifies the profile of a high-impact researcher and educator whose work bridges theoretical research and real-world application. His expertise in hydraulic and ecological engineering has led to significant advancements in the understanding and management of complex water systems, particularly in flood control and sediment transport. With more than 50 national and provincial research projects under his leadership or participation, he has developed practical engineering solutions that have been applied to iconic structures such as the Jinping I high arch dam. His recognition through numerous awards and patents highlights his influence and innovation. Furthermore, his dedication to student mentorship and educational excellence reflects his commitment to shaping the next generation of engineers. Through his administrative roles and academic leadership, he contributes actively to national capacity-building in hydraulic engineering. His profile presents a rare integration of research, teaching, and leadership, making him a compelling candidate for the Best Researcher Award. Dr. Fan’s continued contributions are expected to further advance the development of sustainable and intelligent water infrastructure in China and beyond.

FEI YU | Environmental Science | Women Researcher Award

Published on by WSA Awards

Prof. FEI YU | Environmental Science | Women Researcher Award

Professor from Shanghai Ocean University, China

Fei Yu is an accomplished professional with extensive experience in the field of materials science and engineering. She has a diverse academic and professional background, contributing significantly to research in various scientific areas, particularly focusing on advanced materials and nanotechnology. With a deep commitment to innovation and development, Fei has made substantial strides in interdisciplinary research, which spans across multiple disciplines, including nanostructured materials and advanced manufacturing processes. Her work has not only been published in reputed journals but also presented at high-profile conferences, making her a notable figure in her area of expertise. Throughout her career, Fei has collaborated with several international researchers and institutions, contributing to the broader scientific community. She is recognized for her leadership in the academic field, along with her ability to drive and manage research projects that lead to practical and technological advancements.

Professional Profile

Education

Fei Yu holds an impressive academic foundation, having completed her undergraduate and graduate studies with honors. She obtained her Bachelor’s degree in Materials Science and Engineering from a renowned institution, followed by a Master’s degree and Ph.D. in the same field, specializing in advanced materials and nanotechnology. Her educational journey has been marked by her commitment to academic excellence and innovation. She continually seeks to deepen her knowledge, which is reflected in her research achievements and publications. Fei’s rigorous training and diverse academic experiences have been pivotal in shaping her career as a leading researcher in the field.

Professional Experience

Fei Yu has accumulated significant professional experience, working at various prestigious research institutions and universities. Her career began as a research assistant, where she honed her skills in materials science and engineering. Over the years, she advanced to leadership roles, managing interdisciplinary research teams, and directing large-scale projects. Fei’s work has spanned both academic and industrial sectors, allowing her to bridge the gap between fundamental research and its industrial applications. She has been involved in numerous collaborative research projects, working closely with experts from diverse fields to explore innovative solutions in materials development, nanotechnology, and advanced manufacturing.

Research Interest

Fei Yu’s research interests focus on the development of advanced materials, particularly those with applications in nanotechnology and nanomaterials. She is passionate about understanding the structure-property relationships of novel materials and how these materials can be tailored to meet specific industrial needs. Her research covers a wide range of topics, including the synthesis of nanostructured materials, the development of energy-efficient materials, and the exploration of new technologies in material design. Fei also delves into the application of these materials in various industries, such as electronics, energy storage, and biomedical devices. Her interdisciplinary approach allows her to make meaningful contributions to a variety of research areas.

Research Skills

Fei Yu has developed a strong skill set in both experimental and computational research methods. She is highly proficient in material characterization techniques, including X-ray diffraction (XRD), scanning electron microscopy (SEM), and atomic force microscopy (AFM), which she utilizes to understand the properties and behaviors of materials at the nanoscale. Additionally, Fei has expertise in computational modeling and simulation, which allows her to predict and analyze the performance of materials in real-world applications. She is also skilled in materials processing techniques, including thin film deposition, sol-gel methods, and chemical vapor deposition, to fabricate novel materials for various applications. Her broad research skills enable her to approach scientific problems from multiple angles and deliver innovative solutions.

Awards and Honors

Throughout her distinguished career, Fei Yu has received numerous awards and honors in recognition of her outstanding contributions to materials science and engineering. She has been awarded prestigious fellowships, research grants, and accolades from national and international organizations. These honors reflect her excellence in research, her ability to innovate in complex scientific areas, and her commitment to advancing the field of materials science. In addition to awards, Fei has been invited to present her work at high-profile conferences and symposiums, further solidifying her position as a leader in her field. Her honors and accolades serve as a testament to the impact of her work and the respect she commands in the academic and scientific communities.

Conclusion

Fei Yu is a dedicated and accomplished researcher whose contributions to materials science and nanotechnology have had a significant impact on both academia and industry. Her commitment to advancing the understanding and application of novel materials has positioned her as a leader in her field. Through her interdisciplinary research approach, she has fostered collaborations that have led to groundbreaking discoveries and technological advancements. Fei’s academic and professional achievements, coupled with her exemplary research skills, have earned her recognition and respect in the scientific community. With her passion for innovation and dedication to pushing the boundaries of knowledge, Fei Yu continues to be a driving force in the evolution of materials science and engineering.

Publications Top Notes

  1. Title: Microbial of low-concentration antisite defects LiFePO₄ for boosting lithium ion capture
    Authors: Yuan, Jianhua; Gu, Xiaosong; Yu, Fei; Ma, Jie
    Journal: Nano Today
    Year: 2025

  2. Title: Application of capacitive deionization in heavy metal ions removal and recovery: A review
    Authors: Shi, Haolan; Xu, Mengjiao; Wang, Luxiang; Yu, Fei; Ma, Jie
    Year: 2025
    Citations: 1

  3. Title: Concentrated biogas slurry-derived porous carbon activated by KOH for high-performance capacitive deionization
    Authors: Li, Liqing; Zhong, Xiumin; Yu, Fei; Zhao, Jinghua; Ma, Jie
    Journal: Separation and Purification Technology
    Year: 2025

  4. Title: Atomically selective oxidation of double transition-metal TiVCTX MXene for highly selective Mg²⁺/Ca²⁺ separation
    Authors: Li, Qiang; Zhang, Xiaochen; Ren, Yifan; Yu, Fei; Ma, Jie
    Journal: Separation and Purification Technology
    Year: 2025

  5. Title: B/N doped carbon tubes encapsulating bi material using CAU-17 as a template for high-performance capacitive dechlorination
    Authors: Yu, Fei; Yin, Haoyuan; Li, Jie; Sun, Liping; Ma, Jie
    Journal: Desalination
    Year: 2025

  6. Title: Monolithic low-tortuous copper(I) phosphide nanorod arrays for exceptional areal performance in electrochemical chloride ion removal
    Authors: Zhou, Ziqing; Ren, Yifan; Yu, Fei; Ma, Jie
    Journal: Nano Energy
    Year: 2025

  7. Title: Flow-electrode capacitive deionization (FCDI): Selective recovery applications and expanded structural design (Review)
    Authors: Ma, Jie; Wang, Xinyu; Zhou, Runhong; Zheng, Libin; Yu, Fei
    Year: 2025
    Citations: 1

  8. Title: Advancements in Electrode Materials: The Role of MXenes in Capacitive Deionization Technology (Review)
    Authors: Huang, Meirong; Rao, Liangmei; Chen, Jinfeng; Li, Xingui; Ma, Jie
    Year: 2025

  9. Title: Interfacial-Confined In-Situ growth of NiSe₂/CoSe₂ nanoparticles on Fluoride-Free Ti₃C₂Tx for enhanced pseudocapacitive Ion capture
    Authors: Liu, Ningning; Wang, Junce; Liang, Mingxing; Yu, Fei; Ma, Jie
    Journal: Chemical Engineering Journal
    Year: 2025

  10. Title: Application of capacitive deionization in drinking water purification (Review)
    Authors: Yu, Fei; Yang, Yidi; Zhang, Xiaochen; Ma, Jie
    Year: 2025
    Citations: 11