Xinqian Shu | Environmental | Best Researcher Award

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Prof. Dr. Xinqian Shu | Environmental | Best Researcher Award

Professor at China University of Mining and Technology-Beijing, China.

Prof. Dr. Xinqian Shu is a leading expert in the fields of clean energy, solid waste treatment, and resource recycling, with decades of dedication to advancing sustainable technologies in China. He has served as the Director of the Institute of Clean Energy and Environmental Engineering at China University of Mining and Technology (Beijing), where he also acts as a doctoral supervisor. Prof. Shu has led over 50 major research projects funded by national and provincial bodies, including the National Key R&D Program of China, the National Natural Science Foundation of China, and strategic scientific programs across Shaanxi, Shanxi, and Xinjiang provinces. In collaboration with major enterprises such as China Coal Energy Group, China Huaneng Group, and Jinergy Holding Group, he has contributed significantly to energy efficiency and environmental protection. Prof. Shu’s academic impact is reflected in over 260 peer-reviewed publications and more than 40 granted invention patents in China and the United States. He has authored three books and received eight prestigious awards from regional governments and the China Coal Industry. His professional affiliations include council memberships in thermal physics, solid waste, and mineral resource utilization. Prof. Shu continues to influence national science and environmental policy through his expert advisory roles.

📝Publication Profile

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🎓Education

Prof. Dr. Xinqian Shu pursued his higher education in engineering and environmental sciences in China, laying a strong academic foundation that supports his expertise in clean energy and waste recycling. He completed his undergraduate, postgraduate, and doctoral studies in institutions renowned for their focus on mining, energy, and environmental engineering, culminating in a Ph.D. in Environmental or Energy-related Engineering (exact university and degree titles are not explicitly stated in the source and would need to be specified). Throughout his academic journey, Prof. Shu developed strong competencies in thermodynamics, resource recovery, solid waste treatment, and the integration of energy systems with environmental protection. His advanced training has enabled him to supervise numerous doctoral students and research fellows, fostering a new generation of scientists and engineers. His academic background continues to underpin his leadership in large-scale national and industrial research projects. Prof. Shu’s education not only provided him with technical expertise but also instilled a deep commitment to sustainable development and innovation in energy and environmental sectors. His educational credentials have positioned him as a national figure in scientific policy advising and technological development.

💼Professional Experience

Prof. Dr. Xinqian Shu has held several influential academic and administrative positions, most notably serving as the Director of the Institute of Clean Energy and Environmental Engineering at China University of Mining and Technology (Beijing). In this role, he has overseen the development and implementation of research initiatives focused on resource recycling and environmental technology. He has acted as principal investigator for over 50 high-profile projects, including those under China’s National Key Research and Development Program, regional science and technology special initiatives in Shaanxi, Shanxi, and Xinjiang, and collaborations with leading energy and industrial corporations. Prof. Shu has been appointed to advisory and expert review roles for several national scientific and environmental agencies. He serves as a council member of both the Beijing Society of Thermal Physics and Engineering and the Organic Solid Waste Committee of the Society of China Nonferrous Metals. Additionally, he is a member of the Academic Committee for the Ministry of Natural Resources’ Key Laboratory of Coal Resource Exploration. His strategic involvement in the Second Batch of Ecological Environmental Protection-Oriented Development (EOD) Model Pilot Projects reflects his pivotal role in shaping China’s environmental protection policies and technologies.

🔬Research Interest

Prof. Dr. Xinqian Shu’s research interests span a broad yet interrelated set of disciplines within clean energy and environmental science. His core focus areas include solid waste treatment and resource recycling, energy utilization, and pollution control, particularly from coal and organic solid waste. He is also deeply engaged in the comprehensive utilization of non-metallic mineral resources, targeting industrial waste conversion into usable products and renewable energy. His work integrates fundamental research with applied engineering to address some of China’s most pressing environmental challenges. Through his exploration of ecological treatment methods and circular economy frameworks, Prof. Shu aims to enhance energy efficiency and reduce environmental impact. His projects often emphasize the valorization of industrial by-products, development of clean combustion technologies, and low-emission utilization of fossil and alternative fuels. This multidisciplinary approach positions Prof. Shu at the nexus of scientific innovation, policy impact, and industrial application. His research directly contributes to national priorities in sustainable development, pollution reduction, and green technology advancement.

🧠Research Skills

Prof. Dr. Xinqian Shu possesses advanced research skills that bridge fundamental science with industrial application. He specializes in the design and optimization of technologies for the treatment of solid waste, recovery of resources from industrial by-products, and the enhancement of clean energy systems. His methodological expertise includes thermal process modeling, pilot-scale system development, lifecycle analysis, and environmental impact assessment. Prof. Shu is adept at managing large-scale, multidisciplinary research teams and coordinating multi-stakeholder projects across academia, industry, and government agencies. He is also skilled in translating laboratory-scale innovations into practical technologies deployed in coal-based and renewable energy sectors. His ability to integrate policy, environmental engineering, and industrial technology makes him a national leader in applied clean energy research. Prof. Shu’s experience extends to patent writing and technology transfer, demonstrated by his portfolio of over 40 China and US invention patents. His proficiency in both theoretical and applied research supports his continued contributions to national innovation systems and environmental sustainability.

🏆Awards and Honors

Prof. Dr. Xinqian Shu has received multiple prestigious awards in recognition of his scientific excellence and impactful contributions to energy and environmental engineering. He has been honored with eight awards from various provincial and national institutions, including the Beijing Municipality, Shaanxi Province, and Shanxi Province, as well as the China Coal Industry Science and Technology Progress Award. These accolades underscore his role in advancing technological solutions to some of China’s most critical challenges in energy and waste management. His leadership in projects under the National Key R&D Program and his involvement in the Ministry of Ecology and Environment’s EOD Model Pilot Projects have further established him as an expert advisor and innovator. Prof. Shu’s achievements are also evident in his intellectual property portfolio, which includes over 40 patents granted in both China and the United States. His recognition is not only a testament to his scientific acumen but also reflects the societal and industrial relevance of his work in sustainable development and ecological protection.

📈Author Metrics

  • Total Citations: 2,331

  • Citations by Documents: 1,745

  • Total Publications: 136

  • h-index: 27

These metrics reflect Prof. Dr. Shu’s impactful and consistent contributions to the academic and scientific community, demonstrating both productivity and influence in his field.

📌Publications Top Notes

1. Lignocellulose hydrothermal artificial humic acid production: Reaction parameters screening and investigation of model/real feedstock

  • Authors: Changzhi Song; Libo Zhang; Jianing Wang; Xinyu Yu; Yepeng Xiao; Lihua Cheng; Xinqian Shu

  • Journal: Journal of Analytical and Applied Pyrolysis

  • Year: 2024

  • Citations: 7

2. Mechanism study on the generation of oxygen vacancies by ball milling surface modification of siliceous minerals in coal gangue to enhance reactivity

  • Authors: Huixin Zhou, Dingxun Ma, Lingwen Dai, Yichao Wang, Xiaoling Ren, Xiaozhen Liu, Xumin Li, Haijiao Xie, Xinqian Shu

  • Journal: Applied Surface Science

  • Year: 2025

  • Citations: 4

3. Competitive Adsorption of Pb²⁺ from Aqueous Solutions by Multi-Source Lignocellulose-Derived Hydrothermal Humic Acid

  • Authors: Changzhi Song, Junhao Liu, Libo Zhang, Jianing Wang, Xinqian Shu

  • Journal: Processes

  • Year: 2025

  • Citations: 3

4. Machine learning constructs the microstructure and mechanical properties that accelerate the development of CFRP pyrolysis for carbon-fiber recycling

  • Authors: Lingwen Dai, Xiaomin Hu, Congcong Zhao, Huixin Zhou, Zhiji Zhang, Yichao Wang, Shuai Ma, Xiaozhen Liu, Xumin Li, Xinqian Shu

  • Journal: Waste Management

  • Year: 2024

  • Citations: 2

5. Physicochemical, kinetic, and bond-energy analyses of the pyrolysis of carbon-fiber-reinforced polymer waste

  • Authors: Lingwen Dai, Xiaomin Hu, Huixin Zhou, Xiaozhen liu, Yuchen Wu, Liru Sun, Xinqian Shu

  • Journal: Journal of Analytical and Applied Pyrolysis

  • Year: 2025

  • Citations: 1

🧾Conclusion

Prof. Dr. Xinqian Shu stands out as a visionary scientist and educator in the fields of energy efficiency, environmental engineering, and solid waste utilization. With a prolific research career, he has shaped national and regional strategies for clean energy deployment and industrial sustainability. His leadership at China University of Mining and Technology (Beijing), combined with his coordination of over 50 major projects, underscores his capacity to bridge research, policy, and industry. Prof. Shu’s academic output, including over 260 publications, three monographs, and numerous patents, demonstrates his commitment to innovation and practical impact. His awards and professional memberships reflect recognition from the scientific community and government bodies alike. As a scholar, mentor, and strategic advisor, Prof. Shu continues to influence environmental policy, technological advancement, and sustainable practices across China. His contributions have laid a robust foundation for the next generation of researchers and continue to drive progress toward a circular economy and ecological civilization.

 

Wenbo Guo | Environmental | Best Researcher Award

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Dr. Wenbo Guo | Environmental | Best Researcher Award

Doctor (DPhil Researcher) at University of Oxford, United Kingdom.

Dr. Wenbo Guo is an interdisciplinary researcher at the intersection of urban planning, environmental health, and smart city development. He holds a DPhil (PhD) from the School of Geography and the Environment at the University of Oxford, with his doctoral research focusing on air pollution, mobility, and subjective wellbeing in transitional China. With a dual academic background in geography and economics, Dr. Guo integrates spatial analysis, policy research, and community-engaged methods to promote socially sustainable and health-responsive cities. He has held research positions at the University of Oxford, Peking University, and think tanks such as Polygeia and the China-Britain Artificial Intelligence Association. His professional footprint spans the UK, China, and Australia, where he has conducted collaborative work on smart cities, digital twins, transport resilience, and spatial justice. Dr. Guo has participated in multiple national and international research projects, including those supported by the Ministry of Science and Technology in China, IBM, and the National Science Foundation. A recipient of numerous honors including the Swire Scholarship and Best Paper Award at the Urban Geography Conference, Dr. Guo also contributes as a journal reviewer and committee member in academic communities. His work reflects a commitment to equitable, AI-driven, and climate-resilient urban futures.

📝Publication Profile

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🎓Education

Dr. Wenbo Guo earned his DPhil (PhD) in Geography from the University of Oxford (2016–2025), focusing on urban air pollution, mobility, and wellbeing under the supervision of Professors Tim Schwanen and Christian Brand. His interdisciplinary research bridges environmental science, human geography, and urban policy. Prior to Oxford, he completed an M.S. in Human Geography at Peking University (2011–2014), mentored by Prof. Yanwei Chai, where he gained expertise in urban spatial behavior and planning theory. He also earned a B.S. in Urban and Environmental Sciences from Central China Normal University (2007–2011), studying urban-rural planning under Prof. Shengsheng Gong. Simultaneously, he pursued a B.A. in Economics at Wuhan University (2008–2011), demonstrating an early interdisciplinary orientation. During his postgraduate years, Dr. Guo was a visiting fellow at the Urban Research Program at Griffith University, Australia (2013), enriching his international academic exposure. His comprehensive education has equipped him with robust theoretical grounding, cross-disciplinary flexibility, and a global perspective on urban sustainability, environmental justice, and digital planning tools. These diverse academic experiences underpin his current work on the environmental-health-urban interface in transitional and global cities.

💼Professional Experience

Dr. Wenbo Guo has held diverse academic and research roles that reflect his multifaceted expertise in urban sustainability, spatial analytics, and environmental health. At the University of Oxford, he served as a Research Associate at the School of Geography and the Environment (2023–2025) and previously as a Research Assistant at the Blavatnik School of Government (2018–2019). He has been a long-term researcher at the China-Britain Artificial Intelligence Association (CBAIA) since 2018, focusing on AI-driven urban planning. He also contributed to global health think tank Polygeia (2020–2024), where he addressed planetary health and digital public health issues. Prior to Oxford, Dr. Guo worked at the Center for Smart Cities Research and Planning at Peking University (2014–2015), engaging in major national R&D programs. His teaching experience spans undergraduate and postgraduate levels at Peking University and the Chinese Academy of Sciences, covering topics from GIS and human geography to spatial modeling. He also contributed to the LSE-PKU Summer School on sustainable development. Dr. Guo’s professional journey bridges academia, policy research, and applied urban analytics, enabling him to address complex, interdisciplinary urban challenges with both technical skills and social insights.

🔬Research Interest

Dr. Wenbo Guo’s research interests lie at the nexus of urban planning, environmental health, and digital innovation. His core areas include healthy cities, smart cities, digital twins, and AI applications in spatial planning. He focuses on equitable and sustainable urban and transport systems, emphasizing the environmental exposures and mobility patterns that shape urban health outcomes. His work also explores health inequalities, environmental justice, and the geography of wellbeing, particularly in transitional societies like China. As a geographer with strong methodological capabilities, he engages with exposure assessment, geospatial analytics, and spatial models to evaluate how urban form, climate resilience, and infrastructure affect public health. His interests extend to community-engaged research and participatory urban planning, aiming to integrate citizen perspectives into policy-making. He is also passionate about harnessing large language models (LLMs) and big data analytics to support smart governance and decision-making. By combining qualitative, quantitative, and spatial approaches, Dr. Guo seeks to foster cities that are socially inclusive, environmentally sustainable, and technologically advanced, with a strong orientation toward urban wellbeing and policy translation.

🧠Research Skills

Dr. Wenbo Guo brings a versatile and interdisciplinary research skill set encompassing spatial, quantitative, and qualitative methodologies. His technical proficiencies include spatial analysis with GIS platforms (ArcGIS, QGIS), statistical programming in R and Stata, and scripting in Python. He has applied these tools extensively in urban planning, exposure assessment, mobility behavior modeling, and geospatial health analytics. Dr. Guo is particularly skilled in mixed-method research, integrating environmental data, human mobility patterns, and subjective wellbeing surveys to analyze complex urban systems. His experience in modeling space-time behaviors and smart travel services enhances his capacity to inform smart city and community planning initiatives. He has worked on large-scale national and international projects involving smart city development, urban policy innovation, and socio-environmental evaluation. Additionally, Dr. Guo has experience in participatory research methods and spatial visualization, allowing for the effective communication of research outcomes to stakeholders. With a growing interest in AI and large language models, he is exploring novel computational approaches to urban decision-making and digital governance. His multi-layered expertise equips him to address contemporary challenges in urban resilience, sustainability, and health equity.

🏆Awards and Honors

Dr. Wenbo Guo has received several academic honors and professional recognitions that reflect his excellence in urban geography and policy research. He was awarded the prestigious Swire Scholarship at the University of Oxford in 2016, recognizing his academic distinction and leadership potential. In 2019, he received the Best Paper Award at the Annual Conference of Urban Geography by the Geographical Society of China for his contributions to understanding spatial wellbeing in Chinese cities. During his postgraduate studies, he earned the National Scholarship from China’s Ministry of Education in 2012 and the Tenacity Scholarship from Peking University in 2013. His participation in international innovation competitions includes the European Smart Health and Healthcare Hackathon (2023) and the European Smart Mobility Hackathon (2017), both held in Prague. He also completed Oxford’s Leadership Program on Global Challenges in Transport, participating in modules focused on health, governance, and infrastructure from 2017 to 2018. These awards and programs underscore his interdisciplinary capacity, global engagement, and leadership in advancing research on sustainable, equitable, and smart urban futures.

📈Author Metrics

  • Total Citations: 324

  • h-index: 12

  • i10-index: 14

📌Publications Top Notes

    1. Examining the Influence of Neighborhood and Street-Level Built Environment on Fitness Jogging in Chengdu, China: A Massive GPS Trajectory Data Analysis
      Authors: W. Yang, J. Hu, Y. Liu, W. Guo
      Journal: Journal of Transport Geography
      Year: 2023
      Citations: 50

    1. Examining the Incubation Period Distributions of COVID-19 in Chinese Patients with Different Travel Histories
      Authors: Z. Xiao, X. Xie, W. Guo, Z. Luo, J. Liao, F. Wen, Q. Zhou, L. Han, T. Zheng
      Journal: The Journal of Infection in Developing Countries
      Year: 2020
      Citations: 33

    1. Smart Approaches to Community Management and Public Services in Chinese Cities
      (Original Chinese title: The intelligent path of urban community management and services in China)
      Authors: Y. Chai, W. Guo
      Journal: Progress in Geography
      Year: 2015
      Citations: 28

    1. Five-Year Lung Cancer Mortality Risk and Spatial Distribution in Xuanwei: A Spatiotemporal Correlation Study
      Authors: J. Li, W. Guo, J. Ran, R. Tang, H. Lin, X. Chen, B. Ning, J. Li, Y. Zhou, L.C. Chen, et al.
      Journal: BMC Public Health
      Year: 2019
      Citations: 25

    1. How Does the Visual Environment Influence Outdoor Jogging Behavior? Insights from Citywide Image and GPS Data
      Authors: W. Yang, H. Chen, J. Li, W. Guo, J. Fei, Y. Li, J. He
      Journal: Urban Forestry & Urban Greening
      Year: 2024
      Citations: 19

    1. Temporal Dimensions in Human Mobility and Health Research
      (Original Chinese title: Time Matters in the Study of Human Mobility and Health)
      Authors: M. Guan, W. Guo, Y. Chai
      Journal: Progress in Geography
      Year: 2013
      Citations: 15

    1. Day-to-Day Variability in Activity-Travel Behavior Based on GPS Data: A Case Study from the Suburbs of Beijing
      Authors: Y. Shen, Y. Chai, W. Guo
      Journal: Geographical Research
      Year: 2013
      Citations: 14

    1. Managing Tourist Congestion: Insights from Chinese Group Tours to the UK and Ireland
      Authors: M. Ji, W. Guo, Z. Chen, N. Morgan
      Journal: Current Issues in Tourism
      Year: 2023
      Citations: 13

    1. Applying a Subjective Well-Being Framework to Transport Equity
      Authors: L. Reardon, L. Mahoney, W. Guo
      Book Chapter: In Measuring Transport Equity
      Year: 2019
      Citations: 13

    1. Diurnal Variations in Weekly Spatio-Temporal Behavior of Suburban Residents in Beijing
      (Original Chinese title: Diurnal differences in spatial behavior of residents in Beijing suburbs over a week)
      Authors: Y. Shen, Y. Chai, W. Guo
      Journal: Geographical Research
      Year: 2013
      Citations: 13

🧾Conclusion

Dr. Wenbo Guo stands out as a rising scholar in the interdisciplinary field of urban sustainability, environmental health, and smart city innovation. His academic and professional journey—spanning top institutions in the UK, China, and Australia—demonstrates a strong commitment to addressing real-world urban challenges through a blend of theoretical insight and practical application. His work is informed by deep methodological expertise, covering spatial analysis, AI tools, and policy-oriented research, with a unique emphasis on wellbeing and environmental justice in rapidly transitioning cities. Dr. Guo’s diverse portfolio of research projects, funded by international and national agencies, showcases his ability to contribute meaningfully to both academic knowledge and policy innovation. His leadership roles, teaching experience, and recognition through scholarships and awards further affirm his standing in the field. Looking ahead, Dr. Guo aims to deepen his engagement in interdisciplinary research that promotes healthy, livable, and data-informed cities. With an evolving focus on digital governance, AI, and climate-resilient infrastructure, he is poised to play a significant role in shaping equitable and sustainable urban futures worldwide.

 

Hongqing Hu | Environmental Pollution | Best Researcher Award

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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

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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.