Shuokang Wang | Environmental Science | Best Researcher Award

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Dr. Shuokang Wang | Environmental Science | Best Researcher Award

Department of Mathematics and Physics at Hebei Petroleum University of Technology, China

Dr. Shuokang Wang is a Lecturer at Hebei Petroleum University of Technology, holding a Ph.D. in Mining Engineering. His research primarily focuses on water conservation mining and rock control, addressing the critical balance between coal extraction and ecological preservation in environmentally fragile regions of China such as Inner Mongolia, Shaanxi, and Shanxi. He has published 10 academic papers in reputed journals including Energies and the International Journal of Coal Science & Technology, and holds 8 authorized invention patents. His work has earned him a first and second prize from the Coal Industry Association, and he actively contributes to the scientific community as a reviewer for SCI-indexed journals and as a young editorial board member for Green Mining and Metallurgy. Dr. Wang has also contributed to major national research projects like the “973” Program and the National Natural Science Foundation of China, gaining interdisciplinary experience across geological, environmental, and engineering sciences. His innovations, such as methods for evaluating rock damage and permeability zoning post-mining, have significant implications for sustainable mining practices.

Professional Profile 

🎓 Education of Shuokang Wang

Dr. Shuokang Wang earned his Ph.D. in Mining Engineering, laying a solid academic foundation for his specialization in water conservation mining and rock control. His doctoral training equipped him with advanced knowledge in geomechanics, mining-induced stress evolution, and environmental sustainability in coal mining. This rigorous academic background has been instrumental in shaping his research contributions, enabling him to tackle complex challenges related to ecological protection in mining regions through both theoretical and applied innovations.

💼 Professional Experience of Shuokang Wang

Dr. Shuokang Wang currently serves as a Lecturer at Hebei Petroleum University of Technology, where he actively engages in teaching, research, and academic mentorship. His professional work is centered on water conservation mining and rock control, with a focus on improving ecological outcomes in coal mining operations. He has participated in major national projects such as the “973” Program and the National Natural Science Foundation of China’s general research initiative, collaborating across disciplines including geological engineering, environmental science, and materials development. In addition to his research roles, Dr. Wang contributes to the academic community as a peer reviewer for SCI-indexed journals like Scientific Reports and Science Progress, and as a young editorial board member of Green Mining and Metallurgy. His work bridges academic research and engineering practice, earning recognition and awards from national industry associations.

🔬 Research Interest of Shuokang Wang

Dr. Shuokang Wang’s research interests lie at the intersection of sustainable mining practices and environmental protection, with a strong emphasis on water conservation mining and rock control mechanisms. He is particularly focused on developing innovative methods to mitigate the ecological impact of coal mining in fragile regions such as Inner Mongolia, Shanxi, and Shaanxi. His work involves analyzing stress evolution, permeability changes, and damage characteristics of rock strata during and after mining activities. Dr. Wang also explores the application of acoustic emission testing, permeability zoning, and roof collapse prediction to improve mine safety and water resource management. His interdisciplinary approach integrates engineering mechanics, geological analysis, and environmental science to develop practical, science-backed solutions for the mining industry.

🏅 Awards and Honors of Shuokang Wang

Dr. Shuokang Wang has received notable recognition for his impactful research and contributions to the field of mining engineering. He was honored with a First Prize and a Second Prize by the Coal Industry Association, acknowledging his innovative work in water conservation mining and rock control. His scientific credibility and expertise have also earned him roles as a reviewer for high-impact SCI-indexed journals such as Scientific Reports and Science Progress, and as a young editorial board member of the academic journal Green Mining and Metallurgy. These accolades reflect both his technical excellence and his growing leadership within the academic and professional mining communities.

📚 Publications Top Noted

  1. Title: Study on Creep Characteristics of High-Volume Fly Ash-Cement Backfill Considering Initial Damage
    Authors: Shuokang Wang, Jingjing Yan, Zihui Dong, Hua Guo, Yuanzhong Yang, Naseer Muhammad Khan
    Year: 2025
    Citation: DOI: 10.3390/min15070759

  2. Title: Strategic Recovery of Titanium from Low-Grade Titanium-Bearing Blast Furnace Slag via Hydrothermal-Crystallization Coupling
    Authors: Zihui Dong, Ruichen Yang, Shuokang Wang, Changyong Chen, Mingming Zhao, Nannan Zhou, Peipei Zhang, Yingxin Wang
    Year: 2025
    Citation: DOI: 10.3390/min15050445

  3. Title: Characteristics and Control of Mining Induced Fractures above Longwall Mines Using Backfilling
    Authors: Shuokang Wang, Liqiang Ma
    Year: 2019
    Citation: DOI: 10.3390/en12234604

Conclusion

Dr. Shuokang Wang is highly suitable for the Best Researcher Award, especially in the domain of Mining Engineering with Environmental Sustainability Focus. His contributions are original, practical, and nationally recognized, with strong academic grounding and real-world impact

bushra maryam | Environmental Science | Best Researcher Award

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bushra maryam | Environmental Science | Best Researcher Award

Researcher at Tianjin University, China

Dr. Bushra Maryam is an emerging environmental scientist with a profound passion for nanotechnology and sustainable innovation. She is currently pursuing her Ph.D. in Environmental Sciences at Tianjin University, China, under the mentorship of Prof. Dr. Xianhua Liu. Her work bridges nanomaterials and ecological safety, focusing on lanthanide-doped upconverted nanocomposites for environmental and energy applications. With academic roots from the University of the Punjab, Pakistan, her career reflects a strong blend of academic excellence and applied scientific inquiry. Dr. Maryam has made impactful contributions to areas like microplastic detection, photocatalytic hydrogen generation, and nano-ecotoxicology, publishing in top-tier journals like Nature Communications, Environmental Pollution, and Sustainable Energy & Fuels. Her work is characterized by scientific rigor, innovation, and a clear commitment to environmental sustainability. Recognized with the prestigious Peiyang Future Scholars Scholarship, Dr. Maryam stands as a promising voice in the future of environmental science and nanotechnology.

Publication Profile

Google Scholar

Education

Dr. Maryam’s academic journey began at the University of the Punjab, Lahore, where she earned her B.Sc. (2006–2010) and M.Sc. (2011–2013) in Environmental Sciences. Her undergraduate thesis focused on developing Occupational Health and Safety Management Systems for the refrigerator industry, while her M.Sc. research investigated bioethanol production using Bacillus cellulosilyticus. These early projects demonstrated her strong foundation in industrial and bio-environmental issues. In 2020, she commenced her Ph.D. at Tianjin University, China, specializing in the design and application of lanthanide-doped upconverted nanocomposites for environmental monitoring and energy generation. Under the guidance of Prof. Dr. Xianhua Liu, her doctoral work has yielded cutting-edge research in photocatalysis, nanoplastics tracking, and eco-toxicological applications. This academic path reflects her continuous dedication to addressing global environmental challenges through interdisciplinary scientific research.

Experience

Dr. Bushra Maryam has a balanced portfolio of teaching, research, and industry-oriented experiences. From 2015 to 2019, she worked as a Senior Science Instructor at City Public High School in Pakistan, where she mentored young science students and integrated environmental topics into educational frameworks. Prior to that, she served as a Research Fellow (2011–2013) at the Food and Biotechnology Research Center under Pakistan’s Ministry of Science and Technology, contributing to industrial biotechnology projects. She also undertook a research project at Haier Industries in 2010, focusing on occupational health and safety. These professional engagements enriched her practical insights into environmental applications, bio-resource management, and safety compliance. Her multidisciplinary exposure has fueled her transition into a research-intensive career that now tackles global-scale environmental and sustainability concerns through scientific innovation.

Awards and Honors

Dr. Bushra Maryam has been honored with the Peiyang Future Scholars Scholarship by Tianjin University, a recognition awarded to high-potential international doctoral researchers in China. This prestigious scholarship affirms her outstanding academic performance and research promise in the environmental sciences. Additionally, she has actively participated in several high-impact scientific gatherings, including the International Conference on Advances in Energy Resources and Environment Engineering (ICAESEE 2022) and the 14th Global Chinese Scholars Symposium (GCCES-2022). Earlier in her career, she engaged with national forums such as the World Environment Day Seminar (2012) and the International Conference on Toxicology (2012) hosted by UVAS. These accolades and involvements reflect not only her scholarly capabilities but also her commitment to public engagement, scientific exchange, and sustainable advocacy.

Research Focus

Dr. Maryam’s research revolves around the development, innovation, and environmental application of heterogeneous functional nanomaterials. Her core interest lies in utilizing lanthanide-doped upconversion nanoparticles for monitoring micro- and nanoplastics, hydrogen production, and eco-toxicological studies. She has successfully demonstrated the use of luminous polystyrene nanoparticles to trace nanoplastics in plants and nematodes and has explored photocatalytic hydrogen generation from ammonia borane using novel heterostructures. Her work bridges nanoscience with ecological safety, offering tools to visualize invisible environmental pollutants while promoting clean energy solutions. With a deep focus on sustainability, she explores how advanced nanomaterials can mitigate environmental threats, monitor contamination, and enhance water purification. Her interdisciplinary research integrates materials science, environmental toxicology, renewable energy, and molecular detection—positioning her as a transformative figure in environmental nanotechnology.

Publication Top Notes

  1. Environmental Science: Nano (2025)
    Luminous polystyrene upconverted nanoparticles to visualize the traces of nanoplastics in a vegetable plant.
    🔗 [DOI:10.1039/D4EN01052C]

  2. Sustainable Energy & Fuels (2024)
    Near-infrared driven photocatalytic hydrogen production from ammonia borane hydrolysis using heterostructure-upconverted nanoparticles.
    🔗 [DOI:10.1039/D4SE01047G]

  3. Sensors (Under Review)
    Luminous upconverted nanoparticles as high-sensitivity optical probes for visualizing nano- and microplastics in Caenorhabditis elegans.

  4. Industrial & Engineering Chemistry Research (2023)
    Self-supported Pt@Ni₂P for controllable hydrogen release from ammonia-borane hydrolysis.
    🔗 [DOI:10.1021/acs.iecr.3c01055]

  5. Nature Communications (2024)
    Microplastic detection and remediation through efficient interfacial solar evaporation for immaculate water production.
    🔗 [DOI:10.1038/s41467-024-50421-x]

  6. Environmental Pollution (2024)
    Polystyrene nanoplastics distinctly impact cadmium uptake and toxicity in Arabidopsis thaliana.
    🔗 [DOI:10.1016/j.envpol.2024.124373]

  7. Renewable and Sustainable Energy Reviews (2024)
    Water-enabled electricity generation on film structures: From materials to applications.
    🔗 [DOI:10.1016/j.rser.2024.114461]

  8. Science of The Total Environment (2024)
    Microfluidic sensors for the detection of emerging contaminants in water: A review.

 

 

Amal Zaher | Environmental Science | Best Researcher Award

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Amal Zaher | Environmental Science | Best Researcher Award

Assoc. Prof. Dr Amal Zaher, Beni-suef University, Egypt

Assoc. Prof. Dr. Amal Zaher Shehata is an accomplished academic and researcher in Environmental and Chemical Engineering, affiliated with the Faculty of Postgraduate Studies for Advanced Sciences (PSAS), Beni-Suef University, Egypt. With a strong foundation in chemical engineering, she has led transformative research on wastewater treatment, nanomaterials, and environmental sustainability. Dr. Zaher has authored numerous impactful publications in high-ranking journals, particularly focusing on advanced oxidation processes, layered double hydroxides, and photocatalysis. She has supervised 16 postgraduate theses (14 M.Sc. and 2 Ph.D.), contributed to funded national and international research projects, and actively participates in quality assurance and curriculum development. In addition to her academic duties, she serves as Director of the Training Committee at PSAS and is a reviewer for respected journals such as RSC and Fuel. Her research contributions and dedication to environmental advancement make her a distinguished candidate for the Best Researcher Award.

Publication Profile

Scopus

Education

Dr. Amal Zaher holds a B.Sc. Honors (2000), M.Sc. (2006), and Ph.D. (2012) in Chemical Engineering from the Faculty of Engineering, Minia University, Egypt. Her master’s thesis focused on “A New Technology for Treatment of Oil-Polluted Wastewater,” while her doctoral research, titled “Advanced Process for Oily Water Treatment: Statistical Optimization,” advanced the field of environmental process engineering through data-driven techniques. Her academic journey reflects deep expertise in water and wastewater treatment, catalysis, and nanotechnology. She has since expanded her specialization to include interdisciplinary applications in environmental science, particularly within industrial and sustainable development contexts. Her strong academic background underpins her effective teaching, supervision, and pioneering research efforts at Beni-Suef University.

Experience

Dr. Zaher began her career as a freelance engineer (2000–2002) and later served as a safety and occupational health specialist (2002–2016) at the Ministry of Manpower and Immigration, Minia, Egypt. In academia, she served as Assistant Professor (2013–2022) and was promoted to Associate Professor in 2022 at the Environmental Science and Industrial Development Department, PSAS Faculty, Beni-Suef University. She also directed the faculty’s Training Unit (2016–2018) and currently leads the Training Committee. Dr. Zaher has taught various undergraduate and postgraduate courses, including Biogas Technology, Environmental Management Systems, Green Chemistry, and Clean Water Technology. Her leadership extends to academic program development, quality assurance, and supervision of graduate students. With over two decades of diverse professional experience, she effectively bridges the gap between engineering practice and academic innovation.

Awards and Honors

Dr. Amal Zaher has received recognition as a dedicated researcher and academic leader. Her H-index of 10 and 355+ citations (as of May 2025, Scopus ID: 8922238500) reflect her research influence in environmental nanotechnology and water treatment. She is a peer reviewer for internationally acclaimed journals, including RSC and Fuel, and has contributed to global conferences and symposia, both as an attendee and organizer. Notably, she has coordinated institutional programs on occupational safety and environmental sustainability, reinforcing her impact in academic development. She is also an active member of the Arab Federation for Specialized Women and the Institute for Engineering Research and Publication. Her participation in funded research projects, including international collaborations with institutions in the USA, highlights her global research footprint and scholarly contributions deserving of the Best Researcher Award.

Research Focus

Dr. Zaher’s research centers on sustainable environmental technologies, with a focus on advanced water and wastewater treatment methods. Her core expertise includes photocatalysis, electrocatalysis, nanomaterials (e.g., LDH, MOFs), and adsorption techniques for removing pharmaceuticals, dyes, and heavy metals. She applies experimental and computational techniques to optimize processes for treating oily wastewater and enhancing solar desalination systems. Dr. Zaher also explores the reuse and recycling of nanomaterials in water purification, with attention to green synthesis approaches. Her interdisciplinary work integrates chemical engineering, environmental science, and material chemistry to create scalable, eco-friendly solutions to water pollution. Ongoing collaborations and publications on nanostructures and electrochemical sensing technologies further underscore her commitment to environmental innovation and sustainable development.

Publication Top Notes

  1. 2006Using Advanced Oxidation Process for Oily Water Clean-Up, National Conference, Las Vegas, USA.

  2. 2012Optimization of a Simulated Photo-Fenton Process, 9th International Conference on Modeling Simulation and Visualization Methods.

  3. Influences of tungsten incorporation… toward urea elimination, International Journal of Hydrogen Energy, 45(15), 8082-8093.

  4. Zn/Fe LDH as a clay-like adsorbent for oxytetracycline removal, Environmental Science and Pollution Research, 27(11), 12256-12269.

  5. Photocatalytic Degradation of Phenol Wastewater, Egyptian Journal of Chemistry, 63(11), 4439-4445.

  6. Tungsten incorporation in nickel doped carbon nanofibers…, Fuel, 280, 118654.

  7. La-doped Zn-Fe LDH for tetracycline adsorption, Journal of Molecular Liquids, 322, 114546.

  8. LDH Nanocubes Synthesized with Zeolite Templates, Nanomaterials, 11(12), 3315.

  9. Zn–Fe LDH nanostructures for dye removal, Scientific Reports, 11(1).

  10. Photocatalytic degradation with ZnO nanoparticles, Journal of International Society for Science and Engineering.

  11. Recycling of Zn–Al LDH after levofloxacin adsorption, RSC Advances, 10(46), 27633-27651.

  12. Enhanced Solar Desalination Units, Conference Proceedings.

  13. Book Chapter (2024)Nanomaterials for Electrochemical Sensing of Heavy Metals, Springer.

  14. Book Chapter (2025)Nanofibres for Medical Applications, Elsevier.

Conclusion

Assoc. Prof. Dr. Amal Zaher exemplifies excellence in environmental engineering research and education. Her substantial contributions to water treatment technologies, advanced nanomaterials, and green chemistry underscore her standing as a thought leader and innovator. With a proven track record of impactful publications, active supervision, and international collaboration, she is an outstanding nominee for the Best Researcher Award. Her work not only addresses pressing environmental challenges but also promotes sustainable solutions that benefit both science and society.

Qinyu Ge | Environmental Hypotheses | Best Researcher Award

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Qinyu Ge | Environmental Hypotheses | Best Researcher Award

Prof Qinyu Ge, Southeast University, China

Prof. Qinyu Ge 🎓🔬 earned his Ph.D. in Biomedical Engineering from Southeast University in 2006. As a dedicated researcher at Southeast University, his work focuses on sample treatment and library preparation for high-throughput DNA sequencing 🧬, including spatial transcriptomics and whole-genome methylation studies. His expertise extends to designing DNA microarrays for cell-free nucleic acid, methylation, and DNA polymorphism detection 🧪. Prof. Ge has published extensively on topics like environmental DNA integrity, non-invasive embryo biomarkers, single-cell analysis, and deep learning in genomics 🤖📊, contributing significantly to biomedical research advancements globally 🌍.

Publication Profile

Scopus

Education

Prof. Qinyu Ge 🎓 is a distinguished scholar who earned his Ph.D. in Biomedical Engineering from Southeast University in 2006 🏫. Since then, he has devoted his academic career to the same institution, making remarkable contributions to biomedical research 🔬. His work has advanced the field through innovative studies and impactful publications 📚. Prof. Ge’s dedication to scientific excellence and education has played a key role in shaping the future of biomedical engineering 🌟. His commitment to research and mentoring young scholars continues to inspire the next generation of scientists 👩‍🔬👨‍🔬.

Research Interests

Prof. Qinyu Ge’s research focuses on innovative techniques in sample treatment and library preparation for high-throughput DNA sequencing. His work explores key areas such as spatial transcriptomics, providing insights into gene expression within tissue architecture 🧬, whole genome methylation studies to understand epigenetic modifications 🧪, and advanced DNA microarray design for precise genetic analysis 🔬. Through his contributions, Prof. Ge aims to enhance the accuracy and efficiency of genomic technologies, supporting breakthroughs in biomedical research and personalized medicine 🌍. His expertise continues to drive advancements in the rapidly evolving field of genomics and molecular biology.

Applications

Prof. Qinyu Ge is a leading expert in genomic technologies, making significant strides in cell-free nucleic acid analysis, methylation detection, and DNA polymorphism studies. 🧬🔬 His pioneering research has been instrumental in enhancing the accuracy and efficiency of genetic diagnostics, contributing to early disease detection and personalized medicine. 💡🧫 Through innovative approaches, Prof. Ge’s work bridges the gap between molecular biology and clinical applications, driving advancements in genomics and biotechnology. 🚀🌍 His dedication to scientific excellence continues to inspire breakthroughs, shaping the future of genetic research and healthcare. 📊🧪

Research Focus

Prof. Qinyu Ge’s research focuses on molecular biology, genomics, and bioinformatics 🧬🧪. His work explores transcriptomic analysis, environmental DNA (eDNA) applications, and non-invasive biomarkers for medical diagnostics 🧫🔬. He contributes to single-cell data analysis, DNA data storage, and the use of deep learning in predicting transcription factor binding sites 🤖📊. His studies cover areas like embryo selection, prostate cell typing, and neuroscience, including links to Parkinson’s disease 🧠🧍. By integrating advanced sequencing techniques with AI-based models, Prof. Ge enhances our understanding of gene expression, disease mechanisms, and biological data analysis. 🌍📈

Publication Top Notes

Acquisition and transcriptomic analysis of tissue micro-regions using a capillary-based method

Environmental DNA integrity index is sensitive for species biomass estimation in freshwater

The biological characteristics of long cell-free DNA in spent embryos culture medium as noninvasive biomarker in in-vitro embryo selection

Performance analysis of markers for prostate cell typing in single-cell data

Advances and Challenges in Random Access Techniques for In Vitro DNA Data Storage

Spatial transcriptomic profiling of isolated microregions in tissue sections utilizing laser-induced forward transfer

Transcriptome Study of rd1Mouse Brain and Association with Parkinson’s Disease

Effect of Different Staining Methods on Brain Cryosections

Prediction of Transcription Factor Binding Sites on Cell-Free DNA Based on Deep Learning

Deep-Cloud: A Deep Neural Network-Based Approach for Analyzing Differentially Expressed Genes of RNA-seq Data