Dr. Zhiliang Li | Environmental Science | Best Researcher Award

Dr. Zhiliang Li | Environmental Science | Best Researcher Award

Dr. Zhiliang Li | Environmental Science – Researcher at Jiangsu University, China

Dr. Zhiliang Li is an emerging scholar in the field of environmental engineering, affiliated with Jiangsu University in Zhenjiang, China. He is known for his research in environmental nanotechnology, soil and groundwater remediation, and treatment of heavy metal contamination. With a growing publication record, international collaborations, and a solid citation base, Dr. Li has demonstrated a commitment to addressing pressing global environmental challenges through innovative scientific solutions. His work aims to make long-term improvements in pollution management and ecological restoration using advanced remediation technologies.

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Education:

Dr. Li has undergone comprehensive academic training in environmental sciences and engineering. Though detailed educational credentials are not publicly disclosed, his successful publication history in high-impact journals strongly indicates completion of advanced graduate and doctoral-level studies. His work reflects a deep understanding of environmental chemistry, material science, and microbiological processes in contaminated ecosystems—skills typically acquired through a rigorous academic path.

Experience:

Dr. Li holds a research position at Jiangsu University, where he actively contributes to both laboratory and field-scale studies. His experience spans experimental design, materials synthesis, water and soil analysis, and field demonstrations for remediation technologies. He collaborates with a wide network of co-authors, including established international scientists, and has co-authored multiple high-impact articles across reputed journals. His role often involves cross-disciplinary research on nanomaterials, microbiological interactions, and long-term environmental monitoring.

Research Interests:

Dr. Li’s primary research interests include:

  • Soil and groundwater remediation

  • Environmental nanotechnology and nanoparticle application

  • Heavy metal immobilization (lead, arsenic, cadmium, zinc, etc.)

  • Use of apatite-based and chlorapatite particles for contamination control

  • Water and wastewater treatment

  • Microbial interactions in geochemical transformations

His research aims to mitigate the risks posed by potentially toxic elements and contribute toward safer, more sustainable environmental practices.

Awards:

While no specific awards are listed in the public databases, Dr. Li’s consistent publication in internationally respected journals and his increasing citation count underscore his recognition in the academic community. His eligibility for the Best Researcher Award is supported by his scholarly contributions, collaborations with senior scientists, and participation in impactful research projects.

Selected Publications:

  1. 🧪 “Extracellular metabolites relieve the inhibitory effect of ferrous ions on microbial reduction of schwertmannite” – Chemical Geology, 2025 – Cited by: 0
  2. 🌱 “Application of apatite particles for remediation of contaminated soil and groundwater: A review and perspectives” – Science of The Total Environment, 2023 – Cited by: 11
  3. 🛠️ “Field demonstration of on-site immobilization of arsenic and lead in soil using a ternary amending agent” – Journal of Hazardous Materials, 2022 – Cited by: 21
  4. 🌍 “Evaluation of three common alkaline agents for immobilization of multi-metals in a field-contaminated acidic soil” – Environmental Science and Pollution Research, 2021 – Cited by: 19
  5. ⚗️ “Field assessment of carboxymethyl cellulose bridged chlorapatite microparticles for immobilization of lead in soil” – Science of The Total Environment, 2021 – Cited by: 25
  6. 🧬 “Simultaneous immobilization of multi-metals in a field-contaminated acidic soil using carboxymethyl cellulose-bridged nano-chlorapatite and calcium oxide” – Journal of Hazardous Materials, 2021 – Cited by: 33
  7. 💧 “Enhanced removal of zinc and cadmium from water using carboxymethyl cellulose-bridged chlorapatite nanoparticles” – Chemosphere, 2021 – Cited by: 44

Conclusion:

In summary, Dr. Zhiliang Li has established himself as a promising environmental researcher with a solid foundation in soil and water remediation. His innovative work on applying nanotechnology to tackle contamination issues is timely and socially relevant. While early in his career, he has produced a respectable body of peer-reviewed research, contributed to field-based remediation projects, and collaborated across disciplines and countries. These qualities position him as a deserving candidate for the Best Researcher Award. With continued support and recognition, Dr. Li is expected to make further impactful contributions to environmental sustainability and public health protection.

 

 

 

Dr. Pankaj Chauhan | Climate change | Outstanding Scientist Award

Dr. Pankaj Chauhan | Climate change | Outstanding Scientist Award

Dr. Pankaj Chauhan | Climate change – Wadia Institute of Himalayan Geology, India

Dr. Pankaj Chauhan is an accomplished environmental scientist with over two decades of experience in the fields of glaciology, hydrology, climate science, and geospatial technologies. Currently serving as Scientist-C and Assistant Professor at a premier Himalayan research institute, his work focuses on the Himalayan region’s environmental resilience. Dr. Chauhan integrates advanced tools such as machine learning, IoT, and remote sensing to understand complex natural systems and their responses to climate change. His research is instrumental in informing disaster risk reduction, sustainable water resource management, and climate adaptation strategies in ecologically fragile regions.

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Orcid | Scopus

Education:

Dr. Chauhan’s academic background is a unique blend of geosciences and information technology. He holds a Ph.D. in Hydrology, awarded for his hydro-geomorphological study of the Tons watershed. He earned dual M.Sc. degrees in Geo-informatics and Information Technology, along with a Master’s in Geography and a Postgraduate Diploma in Software Engineering. This interdisciplinary education has been foundational in enabling his contributions to environmental modeling, geospatial analysis, and climate resilience research.

Experience:

Dr. Chauhan has held multiple academic and research positions, progressing from GIS Analyst at the Survey of India to Junior and Senior Research Fellow at the Forest Survey of India. He later served as Technical Officer and Postdoctoral Fellow before becoming Scientist-B and now Scientist-C. He has contributed significantly to national and international projects related to Himalayan hydrology and disaster prediction. He is also a government advisor on floodplain management and a member of multiple expert and technical evaluation committees. His mentorship includes supervision of over 25 students and facilitation of 20+ training programs.

Research Interests:

Dr. Chauhan’s research spans glaciology, hydrometeorology, climate variability, natural hazard modeling, and watershed management. He applies geospatial techniques and artificial intelligence to study glacial meltwater, streamflow forecasting, sediment transport, and environmental degradation. His work is deeply rooted in the Himalayan context, but its implications extend to broader mountain and climate-sensitive regions worldwide. He emphasizes integrative approaches that bridge traditional earth sciences with modern computational methods.

Awards:

Dr. Chauhan’s scientific excellence has been recognized through several prestigious fellowships and awards:

  • 📘 In 2025, Dr. Chauhan co-authored a pioneering study titled Geospatial and AHP based identification of potential zones for groundwater recharge in Haridwar District of India, published in Frontiers in Environmental Science, applying advanced geospatial tools and the AHP model to map recharge zones crucial for sustainable water planning.
    🌊 A notable publication from 2024 in Artificial Intelligence in Geosciences, Forecast future disasters using hydro-meteorological datasets in the Yamuna River Basin, employed Markov Chain and LSTM models to predict disaster patterns, marking a significant fusion of hydrology with machine learning.
    💧 Also in 2024, he contributed to Identification of groundwater recharge potential zones in Advances in Space Research, a critical work integrating multi-criteria decision analysis and geospatial tools to assess recharge areas in Uttarakhand’s vulnerable districts.
    🧪 In 2024, his collaborative research titled Evaluation of Surface Water Quality in the Betwa River Basin appeared in Environmental Science and Pollution Research, offering insights into water quality through multivariate analysis and WQI models, supporting informed river basin management.
    🌧️ His 2023 publication, A Climatic Surprise – Slope Instability Triggered by Heavy Rain, in the Journal of the Geological Society of India, presented a case study on rainfall-induced landslides, emphasizing the increasing vulnerability of the Himalayan terrain to climatic shifts.
    🦷 Broadening his interdisciplinary impact, in 2023 Dr. Chauhan co-authored Enhanced osseointegration of drug-eluting nanotubular dental implants in Bioactive Materials, demonstrating bioengineering applications of nanotech, which garnered interest beyond environmental sciences.
    ❄️ Finally, in 2023, he contributed to Supraglacial geomorphology of Companion Glacier in Frontiers in Earth Science, detailing glacier surface evolution in the Central Himalaya — vital for glaciological studies and climate change monitoring.

Publications:

Here are seven selected, high-impact publications by Dr. Chauhan:

  • 🔬 2024 – Forecast future disasters using hydro-meteorological datasets, Artificial Intelligence in Geosciences – Cited by: 12
  • 🌊 2023 – Discharge and sediment flux from glacierized basins, Environmental Monitoring and Assessment – Cited by: 17
  • ❄️ 2023 – Streamflow prediction in a hilly catchment using deep learning, Hydrology and Earth System Sciences – Cited by: 21
  • 💧 2024 – Surface water quality assessment using multivariate statistics, Environmental Science and Pollution Research – Cited by: 9
  • 📉 2025 – Groundwater recharge zones using geospatial models, Advances in Space Research – Cited by: 7
  • 🌦️ 2021 – Forest evapotranspiration and extreme rainfall, Environmental Research Letters – Cited by: 38
  • 📡 2022 – Watershed vulnerability analysis using remote sensing, Geocarto International – Cited by: 25

Conclusion:

In conclusion, Dr. Pankaj Chauhan is a model candidate for the Outstanding Scientist Award. His interdisciplinary approach, innovative use of technology in earth sciences, and policy-relevant research make him a leader in his field. With a strong publication record, international collaborations, and commitment to mentoring the next generation of scientists, he exemplifies excellence in research and service. Honoring him with this award would not only recognize his past contributions but also support his ongoing efforts toward climate resilience and environmental sustainability in the Himalayan region and beyond.

 

 

 

Goran Strbac | Carbon Energy | Distinguished Academic Leadership Award

Prof. Goran Strbac | Carbon Energy | Distinguished Academic Leadership Award

Prof. Goran Strbac | Carbon Energy – Professor at Imperial College London, United Kingdom

Professor Goran Strbac is an internationally recognized leader in energy systems engineering, currently serving as Professor of Energy Systems at Imperial College London. With more than 25 years of extensive experience, he specializes in developing innovative models for the operation, economics, and planning of integrated low-carbon energy systems. He has authored over 350 peer-reviewed publications and five books, with an impressive h-index of 87 and over 38,000 citations, reflecting the global influence of his research. Professor Strbac leads the Imperial College team in large-scale, cross-sectoral research efforts, contributing significantly to energy market design, energy security, distributed energy resources, and digitalization in energy systems. His work has been instrumental in informing governments, regulators, and industry stakeholders across Europe and beyond, positioning him as a cornerstone of the energy transition towards zero-carbon futures.

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Education📘

Although detailed academic credentials are not explicitly listed, Professor Strbac’s prominent position and long-standing academic leadership at Imperial College London are evidence of a strong academic foundation in electrical and energy systems engineering. His deep expertise and technical rigor in system modeling, infrastructure design, and regulatory economics suggest advanced education in power systems or a closely related discipline. The caliber of his contributions and leadership in global energy research further underscores a career built on substantial academic and technical excellence.

Experience📘

Professor Strbac has led and participated in a wide array of cutting-edge research projects funded by the UK Government, the European Commission, EPSRC, and global industry partners. He has held advisory and leadership positions in more than 20 expert panels, including the UK Government’s Independent Panel for Electricity Market Design, the European Technology & Innovation Platforms, and the Parliamentary Group for Energy Studies. He is also the Director of the Imperial-Tsinghua Research Centre on Intelligent Power and Energy Systems. His key responsibilities span technical and economic modeling, stakeholder engagement, and policy advising. He has served on panels that influence regulations and infrastructure investment strategies, making him a bridge between scientific research and national energy policymaking.

Research Interest📘

Professor Strbac’s research spans several high-impact domains within energy systems engineering. He focuses on whole-energy system integration, assessing the interactions between electricity, gas, hydrogen, transport, and heating systems. He is also deeply involved in the design of energy markets, business models for decentralized systems, and the application of artificial intelligence in zero-carbon infrastructures. His work evaluates the role of emerging technologies such as space-based solar power, hydrogen generation, vehicle-to-grid services, district heating, and solid oxide cells. A strong advocate for systems resilience and reliability, his recent efforts also include energy planning under multi-dimensional uncertainties, with a special emphasis on the economic value of flexibility in future energy systems.

Awards📘

Professor Strbac’s leadership and innovation have earned him appointments to some of the most prestigious scientific and governmental committees in the UK and Europe. These include his role as a Lead Author in the IPCC Working Group III and as a member of the UK Committee of CIRED, OFGEM’s RIIO-2 Challenge Group, and the European Energy Research Alliance. He was also a director of the UK Centre for Sustainable Electricity and Distributed Generation and has chaired numerous advisory boards. His thought leadership continues to shape international dialogues around sustainable energy transitions and infrastructure modernization.

Selected Publications 📘

“Impacts of Large Amounts of Wind Power on Design and Operation of Power Systems: Results of IEA Collaboration” – Wind Energy, 2011, cited by 556 articles 🔄
“Design and Operation of Power Systems with Large Amounts of Wind Power: State of the Art Report” – IEA Wind Report, 2007, cited by 470 articles 🌬️
“Trading Wind Generation in Short-Term Energy Markets” – IEEE Transactions on Power Systems, 2002, cited by 450 articles 💱
“Maximising Penetration of Wind Generation in Existing Distribution Networks” – IEE Proceedings – Generation, Transmission and Distribution, 2002, cited by 444 articles ⚙️
“Distribution System State Estimation Using an Artificial Neural Network Approach for Pseudo Measurement Modeling” – IEEE Transactions on Power Systems, 2012, cited by 438 articles 🧠
“Value of Bulk Energy Storage for Managing Wind Power Fluctuations” – IEEE Transactions on Energy Conversion, 2007, cited by 404 articles 🔋
“A Power System Stabilizer for DFIG-Based Wind Generation” – IEEE Transactions on Power Systems, 2006, cited by 403 articles 🌀
“Stochastic Scheduling with Inertia-Dependent Fast Frequency Response Requirements” – IEEE Transactions on Power Systems, 2016, citation count unavailable 📉

Conclusion📘

Professor Goran Strbac is a transformative figure in the global energy sector, whose innovative approaches to system modeling, digitalization, and low-carbon technology integration are shaping the path toward sustainable energy futures. His academic leadership, international collaborations, and evidence-based contributions to policymaking make him a highly deserving candidate for recognition. From advising government energy reforms to advancing cutting-edge research on hydrogen and flexibility services, his career exemplifies the critical intersection of technical rigor and practical impact. Professor Strbac continues to inspire a new generation of engineers, researchers, and policymakers striving for resilient, efficient, and net-zero energy systems.