Zuliang Lu | Environmental | Best Researcher Award

Prof. Zuliang Lu | Environmental | Best Researcher Award

Director at Information Technology Center of Chongqing Three Gorges University, China.

Prof. Zuliang Lu is a distinguished computational mathematician and professor at Chongqing Three Gorges University. He serves as Director of both the Information Technology Center and the Experimental Training Center at the university. Prof. Lu earned his Ph.D. in Computational Mathematics from Xiangtan University and has since focused his career on numerical solutions of partial differential equations and optimal control theory. He has authored over 60 peer-reviewed journal articles and several academic books. His work bridges mathematics, environmental science, and economics, particularly in the context of sustainable development in the Three Gorges Reservoir Area. Prof. Lu’s innovative research includes stochastic differential game models for pollution control and real-options theory for resource management. His contributions have been recognized through prestigious awards, including the Chongqing Natural Science Award and the Chongqing Outstanding Middle-aged and Young Backbone Teacher Award. He has led key national and municipal research projects and served as a reviewer and editorial board member for top international journals. Prof. Lu has also mentored many postgraduate students, several of whom have progressed to doctoral studies. His interdisciplinary approach has influenced policy-making and improved regional environmental governance, solidifying his reputation as a leader in applied computational mathematics in China.

📝Publication Profile

Scopus

🎓Education

Prof. Zuliang Lu completed his Ph.D. in Computational Mathematics at Xiangtan University, one of China’s respected institutions for mathematical research. During his doctoral studies, he developed deep expertise in partial differential equations, optimal control theory, and computational simulation techniques, laying the foundation for his future interdisciplinary work. His educational background provided him with robust analytical and computational skills essential for tackling real-world challenges in environmental and industrial systems. Prof. Lu’s academic training emphasized rigorous mathematical modeling, algorithm development, and numerical analysis, which later became central to his career. His ability to apply theoretical mathematics to practical problems—such as environmental policy, water resource management, and pollution control—demonstrates the breadth and depth of his academic preparation. Throughout his studies, he consistently demonstrated a commitment to academic excellence and innovative thinking. These qualities have continued to define his professional endeavors and research contributions. Prof. Lu also regularly engages in continuing education, international workshops, and collaborative academic programs, keeping him at the forefront of developments in computational mathematics and applied sciences. His strong educational foundation is reflected in his capacity to lead multidisciplinary research teams and mentor the next generation of computational scientists.

💼Professional Experience

Prof. Zuliang Lu currently holds dual leadership roles as Director of both the Information Technology Center and the Experimental Training Center at Chongqing Three Gorges University. In these capacities, he oversees the university’s technological infrastructure and laboratory innovation systems while spearheading advanced training initiatives for students and faculty. His career spans over two decades, during which he has led key national and municipal research projects in applied mathematics and environmental modeling. Prof. Lu has also worked extensively with governmental and academic bodies, including collaborations with the Wanzhou District Government and the Chongqing Statistical Society. These engagements reflect his strong commitment to research that addresses societal challenges. As a senior faculty member, he has been instrumental in developing research platforms and improving the university’s research culture. In addition to teaching advanced mathematics and computational science courses, Prof. Lu has mentored numerous postgraduate students. His international experience includes collaborations with the Chinese Academy of Sciences and Nanyang Technological University in Singapore, expanding his global perspective and fostering interdisciplinary innovations. His professional career exemplifies a combination of academic leadership, applied research excellence, and community engagement.

🔬Research Interest

Prof. Lu’s research interests center around computational mathematics, with a particular emphasis on the numerical solution of partial differential equations, finite element methods, and optimal control problems. His work often extends into applied domains, including environmental modeling, pollution control, resource management, and carbon emission prediction. Notably, Prof. Lu has developed sophisticated mathematical models for understanding cross-border pollution, ecological compensation, and sustainable water resource utilization in the Three Gorges Reservoir Area. His interdisciplinary research integrates principles from mathematics, environmental science, economics, and policy-making. He has innovated stochastic differential game models and real options-based models to simulate real-world ecological and energy systems. These models have provided insights into the economic and ecological consequences of pollution and energy use, assisting in the formulation of public policy. His research also explores simulation techniques such as the Runge–Kutta method and Pontryagin’s maximum principle, advancing the computational tools used for system analysis. Prof. Lu’s research is characterized by a strong commitment to real-world impact, reflected in multiple government-funded projects and policy advisories. His interdisciplinary and application-oriented approach makes his work relevant to both academia and industry.

🧠Research Skills

Prof. Zuliang Lu possesses a comprehensive suite of research skills that span both theoretical and applied mathematics. He is highly proficient in numerical analysis, particularly finite element methods, finite volume methods, and stochastic modeling. His expertise in computational simulation allows him to build and analyze models for complex systems involving differential equations, control theory, and environmental phenomena. Prof. Lu regularly employs Pontryagin’s maximum principle, Markov processes, and Runge–Kutta numerical methods for simulating dynamic systems. He has also incorporated real options theory into environmental management models to address the uncertainty and timing of investment decisions in ecological protection. His technical toolkit includes high-level programming and modeling languages essential for scientific computing and data visualization. Additionally, Prof. Lu is skilled in empirical analysis and data-driven modeling using real-world environmental and economic datasets. His ability to bridge abstract mathematical theories with practical, policy-relevant problems showcases his strength in interdisciplinary research. These skills have been instrumental in his leadership of projects funded by the National Natural Science Foundation of China and the China Postdoctoral Science Foundation, among others. Prof. Lu’s research capabilities continue to influence policymaking and foster sustainable development in ecologically sensitive regions like the Three Gorges Reservoir Area.

🏆Awards and Honors

Prof. Zuliang Lu’s academic and professional achievements have earned him several prestigious awards. He is the recipient of the Chongqing Natural Science Award, recognizing his innovative research in computational modeling and environmental science. He has also been honored with the Chongqing Outstanding Middle-aged and Young Backbone Teacher Award, which acknowledges his leadership in academic mentoring and education reform. These accolades reflect his dual commitment to high-impact research and teaching excellence. His work has received competitive funding from national and regional bodies, including the National Natural Science Foundation of China, the National Social Science Fund, and the China Postdoctoral Science Foundation. His contributions to the simulation and control of water pollution, cross-border pollution governance, and carbon emission prediction have gained wide recognition from domestic and international experts. He has played key roles in projects that influence public policy, including collaborations with the Wanzhou District Statistical Society and the Chongqing Science and Technology Bureau. As a scholar, educator, and research leader, Prof. Lu has been an important figure in advancing applied mathematics for environmental sustainability and public welfare, earning him widespread acclaim in both academic and governmental circles.

📈Author Metrics

  • Total Citations: 594

  • Citing Documents: 307

  • Total Publications: 93

  • h-index: 13

  • Primary Indexing Databases: Science Citation Index (SCI), Engineering Index (EI)

These metrics reflect Prof. Zuliang Lu’s consistent scholarly output and impact in the fields of computational mathematics, optimal control, and numerical methods. His research has garnered significant attention from the academic community, with hundreds of citations across top-tier journals. An h-index of 13 demonstrates a sustained influence, with at least 13 of his papers each cited 13 times or more, reflecting both productivity and relevance in his area of expertise.

📌Publications Top Notes

1. A fast inertial self-adaptive projection based algorithm for solving large-scale nonlinear monotone equations

  • Journal: Journal of Computational and Applied Mathematics

  • Year: 2023

  • Citations: 11

2. An approximate gradient-type method for nonlinear symmetric equations with convex constraints

  • Journal: Journal of Computational and Applied Mathematics

  • Year: 2023

  • Citations: 3

3. The research of river basin ecological compensation based on water emissions trading mechanism

  • Journal: Water Science and Technology

  • Year: 2024

  • Citations: 1

4. Research on basin ecological compensation in the Yangtze River Economic Belt based on the three-way-decision theory

  • Journal: Applied Mathematical Modelling

  • Year: 2025

  • Citations: 0

5. A stochastic differential game based pollution management study of regional alliance

  • Journal: Environmental Development

  • Year: 2025

  • Citations: 0

🧾Conclusion

Prof. Zuliang Lu stands at the intersection of mathematics, environmental science, and public policy, with a career that exemplifies excellence in research, education, and leadership. His innovative use of computational models to address pollution, carbon emissions, and water resource management has significantly contributed to sustainable development strategies, particularly in the Three Gorges Reservoir Area. As an academic, he has consistently published in high-impact journals, served on editorial boards, and reviewed for international publications. His mentorship has nurtured the next generation of scientists and engineers, several of whom have pursued advanced research careers. Prof. Lu’s influence extends beyond academia through impactful collaborations with local governments and scientific institutions across China and internationally. His dedication to interdisciplinary research, teaching innovation, and social responsibility defines him as a thought leader in computational mathematics and applied environmental modeling. With a strong foundation in mathematical theory and a vision for real-world application, Prof. Lu continues to inspire policy changes and academic progress alike. His career is a testament to the power of scientific inquiry when it is grounded in public good and directed toward solving urgent societal challenges.

 

Xiang Li | Environmental | Best Researcher Award

Prof. Dr. Xiang Li | Environmental | Best Researcher Award

Professor at Fudan University, China.

Prof. Dr. Xiang Li is a full professor in the Department of Environmental Science and Engineering at Fudan University, Shanghai. He leads pioneering research on the use of exhaled volatile organic compounds (VOCs) for the early diagnosis of major diseases, particularly cancers such as colorectal, gastric, and brain cancers. His team has developed an advanced breath sampling and trace-level VOC detection platform to enhance diagnostic accuracy through integration with multi-omics data and AI-driven models. Prof. Li’s work bridges environmental health, analytical chemistry, and biomedical applications, offering innovative, non-invasive tools for early disease detection. His scientific contributions extend to environmental carbon cycling, air pollution exposure, and emerging contaminants. He has led over 20 research projects, including major funding from the National Natural Science Foundation of China (NSFC), and maintains strong international collaboration, particularly with German institutions. Prof. Li’s career reflects a consistent commitment to interdisciplinary approaches that fuse high-precision instrumentation, environmental analytics, and translational health research. His scholarship not only supports cutting-edge diagnostics but also contributes broadly to environmental sustainability and public health policy. With over 15 million CNY in funding, his research group continues to shape the next frontier in environmental and medical sciences.

Publication Profile

Orcid

Education

Prof. Dr. Xiang Li holds a Ph.D. in Environmental Science and Engineering from Fudan University, one of China’s premier institutions for science and research. His academic path has consistently focused on environmental analytical chemistry and atmospheric science, with a particular interest in volatile organic compounds (VOCs) and their environmental and health impacts. He undertook postdoctoral research at the University of Waterloo in Canada (2008–2009), under the supervision of renowned scientist Prof. Janusz Pawliszyn, a pioneer in solid-phase microextraction (SPME) and analytical chemistry. This international experience significantly enriched his analytical capabilities and broadened his research perspectives in environmental chemistry. Additionally, Prof. Li completed a research stay as a visiting scholar at the Leibniz Institute for Tropospheric Research (TROPOS) in Germany from 2014 to 2015, collaborating with Prof. Hartmut Herrmann on advanced atmospheric modeling and pollutant transformation mechanisms. These formative experiences provided him with a unique skill set that integrates international environmental chemistry methodologies with domestic challenges in atmospheric pollution, health exposure studies, and bioanalytical research, laying a solid foundation for his future scientific achievements and multidisciplinary research leadership.

Professional Experience

Prof. Xiang Li has held a distinguished academic career at Fudan University since 2006. He began as an Assistant Professor in the Department of Environmental Science and Engineering and was promoted to Associate Professor in 2011. His excellence in teaching and research earned him a full Professorship in December 2016. Throughout his tenure, he has developed a robust and internationally recognized research program in environmental analytical chemistry and human health exposure science. He also brings a wealth of international experience, having conducted postdoctoral research at the University of Waterloo, Canada (2008–2009) under Prof. Janusz Pawliszyn, and serving as a visiting scholar at TROPOS in Germany (2014–2015), collaborating with Prof. Hartmut Herrmann. These roles enriched his methodological expertise and strengthened global research collaborations. Prof. Li has successfully led over 20 competitive research projects and has established a well-equipped laboratory for advanced VOC sampling and analysis. His group integrates high-resolution mass spectrometry, artificial intelligence, and multi-omics to explore VOC biomarkers in both environmental and clinical settings. His leadership continues to inspire interdisciplinary innovations at the nexus of environment, chemistry, and public health.

Research Interest

Prof. Xiang Li’s research interests span environmental chemistry, biomedical diagnostics, and climate-health interactions. His primary research focus is the utilization of exhaled volatile organic compounds (VOCs) for non-invasive disease diagnosis, especially in early-stage detection of colorectal, gastric, and brain cancers. Through the development of an original high-fidelity breath sampling system and a trace-level VOC detection platform, his team explores the intersection of environmental exposure and human health. Prof. Li is also deeply invested in the chemical mechanisms of air pollution and its biological implications. His broader interests include extreme climate events, environmental carbon cycling, emerging pollutants, and environmental analytical chemistry. He aims to elucidate the metabolic signatures and biological relevance of VOCs using multi-omics and machine learning approaches. His interdisciplinary research integrates atmospheric science, analytical technologies, artificial intelligence, and clinical collaborations to address pressing public health challenges. Prof. Li’s work contributes not only to personalized disease diagnostics but also to environmental monitoring and policy development. By decoding the chemical language of breath and pollution, his research aspires to bridge the gap between environmental risk factors and disease pathogenesis in the context of global health.

Research Skills

Prof. Xiang Li possesses a comprehensive suite of advanced research skills in environmental science and analytical chemistry. He specializes in VOC sampling and detection, employing self-developed systems such as solid-phase microextraction (SPME), needle trap devices, and thermal desorption platforms. His laboratory is equipped for high-resolution two-dimensional gas chromatography (GC×GC), direct mass spectrometry, and novel ionization methods including desorption corona beam ionization, allowing for ultratrace-level detection and high-throughput analysis. He is also skilled in multi-omics integration—combining metabolomics, proteomics, and genomics to understand the biological origins and significance of exhaled VOCs. Additionally, Prof. Li has implemented artificial intelligence and machine learning models for breathomics-based disease classification, establishing a framework for precision diagnostics. His environmental analytical skill set also includes quantifying emerging pollutants, characterizing atmospheric particulate matter, and evaluating air pollutant exposure pathways. Prof. Li is proficient in project management, interdisciplinary collaboration, and translating laboratory findings into clinical and policy-relevant applications. These versatile and integrative skills have enabled him to lead major national and international research programs and contribute significantly to both environmental sustainability and public health innovation.

Awards and Honors

Throughout his academic career, Prof. Xiang Li has received numerous recognitions for his research excellence and scientific leadership. While specific national or institutional awards are not explicitly listed, his consistent success in securing major competitive grants, particularly from the National Natural Science Foundation of China (NSFC), speaks to his academic distinction. He has been awarded multiple high-impact NSFC projects, including international cooperative grants such as the Sino-German research collaboration on air pollution, which reflects global recognition of his expertise. His selection for collaborative work at institutions like TROPOS in Germany and the University of Waterloo in Canada underscores his esteemed reputation in atmospheric and analytical sciences. Furthermore, his partnerships with industry leaders such as Agilent Technologies through their ACT-UR program have led to cutting-edge advances in analytical instrumentation and breath analysis. Prof. Li’s capacity to lead cross-sector research and translate scientific findings into actionable diagnostics and environmental monitoring tools exemplifies the high regard in which he is held within both academic and applied scientific communities. His work continues to contribute to the advancement of precision diagnostics and environmental health assessment in China and internationally.

📊 Author Metrics 

📝 Total Publications

Over 20 peer-reviewed journal articles, published in internationally recognized journals including:

  • Environmental Science & Technology
  • Cancer Letters
  • npj Climate and Atmospheric Science
  • Journal of Geophysical Research: Atmospheres
  • TalantaGreen Analytical Chemistry, and others.

📈 Total Citations (Estimated): 1,000–2,500+ citations

📚 h-index (Estimated): 15–25

🔁 i10-index (Estimated) : 15–20+

Indicates at least 15 publications with more than 10 citations each.

🧪 Core Research Areas

  • Breathomics / Volatilomics / Breath Biopsy
  • Air Pollution and Atmospheric Chemistry
    • PM, NMVOCs, NOx, O₃, oxidative stress
  • COVID-19 Related Metabolomic Biomarkers
  • Secondary Organic Aerosol (SOA) Formation
  • Environmental Mass Spectrometry & Analytical Chemistry
  • Climate Impact and Regional Pollution Dynamics

🔍 Peer Review Contributions

Dr. Xiang Li has completed 26 verified peer reviews for leading international journals:

  • Environmental Science & Technology – 13 reviews
  • Environmental Science & Technology Letters – 6 reviews
  • Journal of Hazardous Materials – 3 reviews
  • Environmental Pollution – 2 reviews
  • Science of the Total Environment – 1 review
  • Ecotoxicology and Environmental Safety – 1 review

Top Noted Publication

1. Integrated Smart Mass Spectrometry Platform Enables Volatilomics‑Based Breath Biopsy

  • Journal: Green Analytical Chemistry

  • Year: 2025

2. Advancing Breathomics through Accurate Discrimination of Endogenous from Exogenous Volatiles in Breath

  • Journal: Environmental Science & Technology

  • Year: 2024

3. Nitrate Pollution Deterioration in Winter Driven by Surface Ozone Increase

  • Journal: npj Climate and Atmospheric Science

  • Year: 2024

4. Exhaled Volatolomics Profiling Facilitates Personalized Screening for Gastric Cancer

  • Journal: Cancer Letters

  • Year: 2024

5. High‑Resolution Mapping of Regional NMVOCs Using the Fast Space‑Time Light Gradient Boosting Machine (LightGBM)

  • Journal: Journal of Geophysical Research: Atmospheres

  • Year: 2023

Conclusion

Prof. Dr. Xiang Li is a leading figure in environmental science and analytical chemistry, renowned for his innovative research at the intersection of breathomics, public health, and environmental pollution. As a Professor at Fudan University, he has built a distinguished career through interdisciplinary collaboration, state-of-the-art technology development, and a strong commitment to translational research. His contributions to VOC-based diagnostics and environmental health monitoring reflect a visionary approach that merges cutting-edge analytical tools with artificial intelligence and clinical relevance. With over 15 million CNY in research funding, numerous national and international research grants, and partnerships with globally respected institutions, Prof. Li has established himself as a thought leader in non-invasive diagnostics and air pollution research. His long-term vision includes the clinical integration of breath analysis as a scalable, non-invasive diagnostic platform for major diseases and broader environmental risk management. By decoding molecular fingerprints in exhaled breath and atmospheric samples, his work addresses urgent needs in both medicine and environmental policy. Prof. Li continues to mentor emerging scientists and lead impactful research that promotes both human and planetary health.

 

Hongqing Hu | Environmental Pollution | Best Researcher Award

Prof. Dr. Hongqing Hu | Environmental Pollution | Best Researcher Award

Prof. Dr. Hongqing Hu | Environmental Pollution – Professor at Huazhong Agricultural University, China.

Prof. Dr. Hongqing Hu is a distinguished soil scientist affiliated with the College of Resource and Environment at Huazhong Agricultural University. With over three decades of academic and research experience, his career has significantly advanced the understanding of soil chemistry, fertility, mineralogy, and plant nutrition. He earned all his academic degrees—B.Agri.Sci., M.Sc., and Ph.D.—from Huazhong Agricultural University, building a robust foundation in agronomic sciences. Throughout his professional life, Prof. Hu has contributed extensively to national and international research initiatives, focusing on nutrient dynamics, heavy metal remediation, rhizosphere processes, and sustainable soil management practices. His global engagements as a visiting scientist and invited speaker span Germany, the USA, Italy, Korea, and Australia, highlighting his recognition within the scientific community. Prof. Hu has also played prominent editorial roles in several influential journals and has been a reviewer and awardee recognized for scholarly excellence in soil and environmental sciences. His work addresses both fundamental and applied aspects of soil science, including the environmental impacts of agriculture, rhizosphere chemistry, and sustainable fertilization. With a career marked by significant publications, grants, and honors, Prof. Hu continues to influence the field of agricultural and environmental sustainability through research, mentorship, and leadership.

Publication Profile

Scopus

Orcid

Educational Background

Prof. Dr. Hongqing Hu completed all his academic degrees at Huazhong Agricultural University, China, establishing a deep and continuous academic affiliation with the institution. He earned his Bachelor’s degree in Agricultural Sciences in 1988, followed by a Master of Science degree in 1991 with a focus on soil mineralogy and surface chemistry. His M.Sc. dissertation investigated the association and surface properties of clay minerals in Mufu Mountain soil, a project that laid the foundation for his later studies on mineral-soil interactions. Building upon this, he pursued and earned his Ph.D. in 1997, focusing on the effects of organic acids on phosphate adsorption-desorption in acid soils and aluminum oxides. His doctoral research provided key insights into phosphorus dynamics and soil chemical behavior under nutrient stress, contributing to improved understanding of nutrient bioavailability and soil fertility management. The academic rigor and specificity of his training have enabled him to carry out cutting-edge research on complex soil systems, both in China and abroad. His formal education, rooted in a single premier institution, reflects both academic depth and a sustained commitment to addressing pressing agricultural and environmental challenges through science.

Professional Experience

Prof. Hu has held progressive academic positions at Huazhong Agricultural University, beginning his career in 1991 as an assistant professor and lecturer, followed by an appointment as associate professor from 1999 to 2003. Since 2003, he has served as a full professor in the university’s College of Resource and Environment. His international engagements include research and visiting scientist roles in renowned institutions: the University of Napoli (Italy, 2000), the University of Western Australia (2001–2002), Chungbuk National University (Korea, 2005 & 2007), Texas A&M University (USA, 2010), and the Jülich Agrosphere Institute (Germany, 2011). These experiences have enriched his interdisciplinary outlook and fostered international collaborations in soil chemistry and environmental science. In editorial capacities, Prof. Hu has served on the boards of several prestigious journals, such as Journal of Plant Nutrition and Fertilizer, Journal of Environmental Sciences, Agricultural Sciences, and Sustainable Development. He was also the Editor-in-Chief of Journal of Agriculture, Food and Development (2015–2022). His professional trajectory demonstrates a strong blend of academic leadership, international research engagement, and editorial stewardship, reinforcing his reputation as a thought leader in soil and environmental science.

Research Interest

Prof. Hu’s research interests are deeply rooted in soil chemistry, fertility, and environmental sustainability. He specializes in soil mineralogy, rhizosphere interactions, nutrient dynamics, and pollution remediation. One of his key focuses is the behavior of phosphorus in acid soils, including adsorption-desorption processes involving phosphate rocks and organic acids. He has also explored nutrient stress at the root-soil interface, specifically addressing biochemical reactions in variable charge soils. Another major area of interest is soil contamination—particularly heavy metal pollution—and the development of chemical and biological strategies for immobilization and phytoremediation. His projects include the investigation of Bt protein interactions in transgenic crops, biochar applications, and the environmental implications of agricultural practices in regions like the Three Gorges Reservoir. More recently, he has worked on organic-mineral fertilizer integration, eutrophication control, and microbiome-assisted remediation techniques. These interdisciplinary efforts, funded by national bodies such as NSFC, MOST, MOE, and 863 programs, reflect his dedication to developing practical, science-based solutions for soil health, food safety, and environmental protection. His interest in bridging the gap between fundamental soil science and applied agricultural technologies positions him at the forefront of sustainable land use and ecological resilience research.

Research Skills

Prof. Hu possesses a wide array of advanced research skills in soil chemistry and environmental sciences. His expertise includes clay mineral analysis, soil nutrient assays, and isotope tracing techniques to study root-soil interactions under nutrient stress. He has employed surface chemistry methods to investigate adsorption phenomena, particularly involving phosphorus, organic acids, and heavy metals. He is skilled in using two-phase (PEG/Dextran) separation techniques to isolate microbial phosphorus components and has utilized modern spectroscopic tools to elucidate chemical changes in soils exposed to various environmental conditions. His methodological proficiency extends to designing field-scale experiments for soil remediation and nutrient management, as demonstrated in his work on Bt protein retention, phosphate rock activation, and organic ligand interactions. He has led complex multi-year projects requiring integration of biogeochemical data, soil microbiology, and agronomic practices. Moreover, Prof. Hu has coordinated large-scale soil surveys, including the Third Soil Survey of Dongbao District and research in the Yangtze River hydro-fluctuation zones. His capacity to combine laboratory analysis, field investigation, and statistical modeling makes him highly effective in addressing agricultural and ecological challenges through interdisciplinary approaches.

Awards and Honors

Prof. Hu’s academic and research contributions have been widely recognized through numerous awards and honors. He has consistently been acknowledged as one of the best reviewers by major scientific journals such as the Journal of Agro-Environmental Science, Chinese Journal of Applied Ecology, and Journal of Environmental Sciences, spanning the period from 2008 to 2019. In 2005, he received both the Second Prize for Natural Science from China’s Ministry of Education and the Third Prize for Natural Science from Hubei Province. Earlier accolades include the Third Prize for Scientific and Technological Improvement (Hubei Province, 2000), and the First and Third Prizes for Research Papers from the Scientific Committee of Hubei Province in 1998 and 1996, respectively. He was also awarded the Second Prize for Technological Improvement by the Educational Commission of China in 1995. These awards reflect his longstanding commitment to high-impact research and his contributions to the advancement of soil and environmental sciences in China. His record of excellence not only affirms his scientific reputation but also demonstrates a career dedicated to innovation, quality, and academic integrity.

Author Metrics

  • Total Citations: 5,014

  • Citing Documents: 4,160

  • Total Publications: 173

  • h-index: 42

These metrics reflect a high level of scientific impact and sustained academic contribution, indicating that at least 42 of your publications have been cited 42 times or more, demonstrating both productivity and influence in your field.

Top Noted Publication

1. Individual and combined inoculation of plant growth-promoting endophytic bacteria enhance Ricinus communis L. to remediate Cu/Cd polluted soil

Journal: Journal of Hazardous Materials
Publication Date: 2025
Highlights:

  • Investigates the remediation efficiency of Ricinus communis inoculated with endophytic bacteria in copper and cadmium polluted soil.

  • Demonstrates that combined inoculation significantly boosts plant biomass and metal uptake while improving soil enzyme activity.

2. Combined application of biochar and calcium superphosphate can effectively immobilize cadmium and reduce its uptake by cabbage

Journal: Agronomy
Publication Date: October 28, 2024
Highlights:

  • Evaluates the synergistic effects of biochar and calcium superphosphate (CaSSP) in cadmium-contaminated soil.

  • Finds that the amendment reduced Cd mobility and significantly limited Cd uptake by cabbage, offering a low-cost remediation strategy.

3. Comparative study on the leaching characteristics of Cd passivated in soils under continuous simulated acid rain

Journal: Sustainability
Publication Date: April 6, 2023
Highlights:

  • Compares how cadmium-stabilizing amendments behave under acid rain conditions.

  • Reveals long-term environmental stability of certain Cd-passivating agents under acidic leaching.

4. Endophytic bacteria in Ricinus communis L.: Diversity of bacterial community, plant-growth promoting traits of the isolates and its effect on Cu and Cd speciation in soil

Journal: Agronomy
Publication Date: January 23, 2023
Highlights:

  • Studies the bacterial endophyte diversity in Ricinus communis grown in metal-polluted soils.

  • Isolates show traits like phosphate solubilization, siderophore production, and influence metal bioavailability.

5. Comparative study on the fraction changes of the Cd immobilized in the soils with simulated acid rain

Type: Preprint (Research Square)
Publication Date: November 11, 2022
Highlights:

  • Focuses on the long-term stability of cadmium immobilized in soil when exposed to acid rain.

  • Concludes that different amendments alter Cd fractionation pathways differently under acidic stress.

Conclusion

Prof. Dr. Hongqing Hu stands as a leading figure in the fields of soil science and environmental sustainability. Over a career spanning more than three decades, he has made foundational and applied contributions to soil chemistry, plant nutrition, and pollution control. His global research collaborations and editorial leadership underscore his influence across scientific communities. From the behavior of phosphorus in acid soils to the remediation of heavy metal pollution using innovative soil management techniques, Prof. Hu has consistently addressed challenges that are critical for food security and environmental protection. His strong academic background, comprehensive research experience, and numerous accolades demonstrate his commitment to excellence and innovation. Through his work, he has significantly advanced the understanding of soil processes and contributed practical solutions to enhance agricultural productivity and mitigate environmental risks. Prof. Hu continues to inspire the next generation of soil scientists while shaping sustainable agricultural policies and practices. His career is a testament to the power of integrated, interdisciplinary research in solving complex ecological problems and promoting global soil health.

 

Mohammad Sadegh Shakeri | Green Technologies | Green Technology Award

Dr. Mohammad Sadegh Shakeri | Green Technologies | Green Technology Award

Associated Professor at Department of Magnetic Materials and Nanostructures, NZ34, Division of Condensed Matter Physics, NO3, Institute of Nuclear Physics Polish Academy of Sciences, Krakow, Poland, 2023-now, Poland.

Dr. Mohammad Sadegh Shakeri is an Assistant Professor at the Institute of Nuclear Physics, Polish Academy of Sciences, specializing in magnetic materials, nanostructures, and condensed matter physics. His work spans materials synthesis, computational modeling, and experimental characterization, contributing to advanced ceramics, biomaterials, and photocatalysts. A recipient of multiple international awards and research grants, he actively collaborates with leading global institutions.

Publication Profile

Scopus

Orcid

Google Scholar

Educational Details

Dr. Mohammad Sadegh Shakeri holds a Ph.D. in Materials Science and Engineering from the Materials & Energy Research Centre in Iran (2012–2017). He earned his M.Sc. from the University of Tabriz (2009–2012) and a B.Sc. from Sahand University of Technology (2004–2009), both in Materials Science and Engineering. His early academic foundation was built at Emam Khomeini High School and Rasoul-e-Akram Pre-University in Songhor, Kermanshah, Iran.

Professional Experience

Dr. Shakeri is an Assistant Professor at the Department of Magnetic Materials and Nanostructures, Institute of Nuclear Physics, Polish Academy of Sciences, Krakow, Poland. He has previously served as a postdoctoral researcher at the same institution (2021–2023) and held visiting researcher positions at the University of Duisburg-Essen, Germany (2023), and the University of Jean Monnet, France (2022). His industry experience includes working as a Research & Development Specialist at Fartak Sanat Rayan Mihan Co. (2017–2020). Additionally, he has contributed to academia as a lecturer at Faradars Virtual University, Tehran, Iran (2020–2021) and has served as a reviewer for reputable scientific journals, including Journal of Alloys and Compounds and Scientific Reports (Nature).

Research Interest

Dr. Shakeri’s research focuses on magnetic materials, nanostructures, and condensed matter physics, with expertise in ultra-high temperature ceramics (UHTCs), photocatalyst materials, biomaterials, and laser-matter interactions. His work integrates density functional theory (DFT), molecular dynamics (MD) simulations, and experimental materials characterization to develop advanced materials for energy, biomedical, and industrial applications.

Author Metrics & Contributions

Dr. Shakeri has authored numerous peer-reviewed publications and has been awarded multiple prestigious research grants, including funding from the Polish National Science Center (NCN), the European Funds for Regional Development, and the Central European Research Infrastructure Consortium (CERIC-ERIC). He is an active member of the European Ceramics Society, CECAM, and FIT4NANO. His scientific contributions have been widely recognized, earning him accolades such as the Polish Ministry of Science and Education Scholarship for Outstanding Young Scientists (2023) and the PSRS Award from the Polish Synchrotron Radiation Society (2024).

Top Noted Publication

  1. Optical Band Gap and Spectroscopic Study of Lithium Alumino Silicate Glass Containing Y³⁺ Ions

    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy

    • Citations: 96 (2011)

    • Summary: This study investigates the optical band gap and spectroscopic properties of lithium alumino silicate glass doped with Y³⁺ ions, revealing its potential applications in optoelectronics and photonic devices.

  2. Electrochemical and Cellular Behavior of Ultrafine-Grained Titanium In Vitro

    • Journal: Materials Science and Engineering: C

    • Citations: 88 (2014)

    • Summary: Examines the electrochemical and biocompatibility properties of ultrafine-grained titanium, highlighting its suitability for biomedical implants.

  3. Nano-Structured Yttria-Stabilized Zirconia Coating by Electrophoretic Deposition

    • Journal: Applied Surface Science

    • Citations: 50 (2013)

    • Summary: Demonstrates an advanced method for depositing yttria-stabilized zirconia coatings, improving the material’s thermal and mechanical stability.

  4. Effect of Hydroxyapatite Coating on Corrosion Behavior and Nickel Release of NiTi Shape Memory Alloy

    • Journal: Materials and Corrosion

    • Citations: 42 (2014)

    • Summary: Investigates how hydroxyapatite coatings enhance the corrosion resistance and biocompatibility of NiTi shape memory alloys, making them more suitable for medical applications.

  5. Effect of Surface Modification by Nitrogen Ion Implantation on Electrochemical and Cellular Behavior of Super-Elastic NiTi Shape Memory Alloy

    • Journal: Journal of Materials Science: Materials in Medicine

    • Citations: 37 (2014)

    • Summary: Highlights the impact of nitrogen ion implantation on the electrochemical and biological performance of NiTi alloys.

  6. The Influence of Ni₄Ti₃ Precipitates Orientation on Two-Way Shape Memory Effect in a Ni-Rich NiTi Alloy

    • Journal: Journal of Alloys and Compounds

    • Citations: 37 (2009)

    • Summary: Explores how the orientation of Ni₄Ti₃ precipitates affects the shape memory behavior of NiTi alloys.

  7. Optical Properties of Transparent Glass–Ceramics Containing Lithium–Mica Nanocrystals: Crystallization Effect

    • Journal: Materials Research Bulletin

    • Citations: 35 (2013)

    • Summary: Studies the crystallization behavior and optical properties of lithium–mica-based glass-ceramics for photonic applications.

  8. High Microwave Absorption of Nano-Fe₃O₄ Deposited Electrophoretically on Carbon Fiber

    • Journal: Materials and Manufacturing Processes

    • Citations: 33 (2016)

    • Summary: Investigates Fe₃O₄-coated carbon fibers for high-performance microwave absorption applications.

  9. Influence of Fe₃O₄ Nanoparticles in Hydroxyapatite Scaffolds on Primary Human Fibroblast Cell Proliferation

    • Journal: Journal of Materials Engineering and Performance

    • Citations: 33 (2016)

    • Summary: Evaluates the biocompatibility of Fe₃O₄-enhanced hydroxyapatite scaffolds for biomedical applications.

  10. Characterization and Optical Properties of Mechanochemically Synthesized Molybdenum-Doped Rutile Nanoparticles and Their Electronic Structure Studies by Density Functional Theory

  • Journal: Materials Today Chemistry

  • Citations: – (Recent)

  • Summary: Integrates experimental and computational methods to analyze molybdenum-doped rutile nanoparticles for optoelectronic applications.

Conclusion

Dr. Mohammad Sadegh Shakeri is a strong candidate for the Research for Green Technology Award due to his pioneering work in advanced materials, photocatalysis, and sustainable energy applications. His research aligns with green technology advancements, making significant contributions to eco-friendly materials and clean energy solutions. Strengthening his focus on real-world green technology applications and industry collaborations will further solidify his position as a leading researcher in this field.