Cary Chiou | Environmental Science | Best Researcher Award

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Prof. Cary Chiou |  Environmental Science | Best Researcher Award

National Cheng Kung University, Taiwan, United States

Dr. Cary T. Chiou is a renowned environmental chemist recognized for his pioneering research in the partition and transport behavior of organic contaminants in the environment. He received his B.S.E. in Chemical Engineering from National Cheng Kung University (1965), followed by an M.S. and Ph.D. in Physical and Surface Chemistry from Kent State University, USA.

Profile:

🎓 Education:

  • B.S.E. in Chemical Engineering – National Cheng Kung University, Taiwan (1965)

  • M.S. & Ph.D. in Physical and Surface Chemistry – Kent State University, USA (1970, 1973)

🧪 Research Focus:

Environmental Fate and Transport of Organic Contaminants

  • Sorption mechanisms in soil and sediment

  • Partition theory with natural organic matter

  • Bioconcentration in aquatic species and plants

  • Air-water interface contaminant transfer

  • Interaction with dissolved organic matter

👨‍🔬 Career Highlights:

  • 🌟 University Chair Professor, NCKU, Taiwan (2007–present)

  • 💧 Research Hydrologist & Project Chief, U.S. Geological Survey, Colorado, USA (1983–2006)

  • 🎓 Associate Professor, Oregon State University (1976–1983)

  • 🧑‍🔬 Postdoctoral Fellowships at Brown University & University of Kentucky

🏆 Honors & Awards:

  • 🔹 Highly Cited Researcher in Engineering & Ecology/Environment

  • 🥇 Outstanding Publication Award – AEESP (1999)

  • 🎖 Distinguished Achievement Award – Chinese Society of Science & Engineering (1989)

  • 🌟 University Chair Professor – NCKU (2007–present)

  • 🧑‍🏫 Environmental Science Lecturer – NTU & UNDP (Taiwan, China)

📚 Notable Contributions:

  • 📘 Soil Sorption Model (1979): Pioneered the concept of soil organic matter as a partition medium

  • 🌱 Koc Consistency: Simplified contaminant sorption prediction across soils and sediments

  • 🧪 PAHs Partitioning Insight: Demonstrated aromatic affinity in SOM via NMR and solvent studies

  • 🔬 Research Impact: Model and findings cited over 1500 times; foundational in environmental chemistry

📊 Citation Metrics:

  • Total Citations: 20,852

  • Citations Since 2020: 2,221

  • h-index: 56

  • h-index Since 2020: 24

  • i10-index: 93

  • i10-index Since 2020: 44

Publication Top Notes:

  • A physical concept of soil-water equilibria for nonionic organic compounds (1979)
    CT Chiou, LJ Peters, VH Freed
    Science 206 (4420), 831-832
    Citations: 1700

  • Partition equilibriums of nonionic organic compounds between soil organic matter and water (1983)
    CT Chiou, PE Porter, DW Schmedding
    Environmental Science & Technology 17 (4), 227-231
    Citations: 1539

  • Water solubility enhancement of some organic pollutants and pesticides by dissolved humic and fulvic acids (1986)
    CT Chiou, RL Malcolm, TI Brinton, DE Kile
    Environmental Science & Technology 20 (5), 502-508
    Citations: 1518

  • Compositions and sorptive properties of crop residue-derived chars (2004)
    Y Chun, G Sheng, CT Chiou, B Xing
    Environmental Science & Technology 38 (17), 4649-4655
    Citations: 1408

  • Partition coefficient and bioaccumulation of selected organic chemicals (1977)
    CT Chiou, VH Freed, DW Schmedding, RL Kohnert
    Environmental Science & Technology 11 (5), 475-478
    Citations: 920

  • Partition characteristics of polycyclic aromatic hydrocarbons on soils and sediments (1998)
    CT Chiou, SE McGroddy, DE Kile
    Environmental Science & Technology 32 (2), 264-269
    Citations: 845

  • Water solubility enhancements of DDT and trichlorobenzene by some surfactants below and above the critical micelle concentration (1989)
    DE Kile, CT Chiou
    Environmental Science & Technology 23 (7), 832-838
    Citations: 760

  • Sorption characteristics of organic compounds on hexadecyltrimethylammonium‐smectite (1988)
    SA Boyd, MM Mortland, CT Chiou
    Soil Science Society of America Journal 52 (3), 652-657
    Citations: 639

  • A comparison of water solubility enhancements of organic solutes by aquatic humic materials and commercial humic acids (1987)
    CT Chiou, DE Kile, TI Brinton, RL Malcolm, JA Leenheer, P MacCarthy
    Environmental Science & Technology 21 (12), 1231-1234
    Citations: 553

  • Soil sorption of organic vapors and effects of humidity on sorptive mechanism and capacity (1985)
    CT Chiou, TD Shoup
    Environmental Science & Technology 19 (12), 1196-1200
    Citations: 546

  • Partitioning of organic compounds in octanol-water systems (1982)
    CT Chiou, DW Schmedding, M Manes
    Environmental Science & Technology 16 (1), 4-10
    Citations: 533

  • Partition and adsorption of organic contaminants in environmental systems (2003)
    CT Chiou
    John Wiley & Sons
    Citations: 505

  • Partition coefficients of organic compounds in lipid-water systems and correlations with fish bioconcentration factors (1985)
    CT Chiou
    Environmental Science & Technology 19 (1), 57-62
    Citations: 470

  • A partition-limited model for the plant uptake of organic contaminants from soil and water (2001)
    CT Chiou, G Sheng, M Manes
    Environmental Science & Technology 35 (7), 1437-1444
    Citations: 444

  • Theoretical considerations of the partition uptake of nonionic organic compounds by soil organic matter (1989)
    CT Chiou
    Reactions and Movement of Organic Chemicals in Soils 22, 1-29
    Citations: 441

  • Effect of ten quaternary ammonium cations on tetrachloromethane sorption to clay from water (1990)
    JA Smith, PR Jaffe, CT Chiou
    Environmental Science & Technology 24 (8), 1167-1172
    Citations: 440

  • Influence of soil organic matter composition on the partition of organic compounds (1992)
    DW Rutherford, CT Chiou, DE Kile
    Environmental Science & Technology 26 (2), 336-340
    Citations: 435

  • Deviations from sorption linearity on soils of polar and nonpolar organic compounds at low relative concentrations (1998)
    CT Chiou, DE Kile
    Environmental Science & Technology 32 (3), 338-343
    Citations: 411

  • Sorption of selected organic compounds from water to a peat soil and its humic-acid and humin fractions: potential sources of the sorption nonlinearity (2000)
    CT Chiou, DE Kile, DW Rutherford, G Sheng, SA Boyd
    Environmental Science & Technology 34 (7), 1254-1258
    Citations: 405

  • Partition of nonpolar organic pollutants from water to soil and sediment organic matters (1995)
    DE Kile, CT Chiou, H Zhou, H Li, O Xu
    Environmental Science & Technology 29 (5), 1401-1406
    Citations: 362

 

Guilong Peng | Environmental Science | Best Researcher Award

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Dr Guilong  Peng |  Environmental Science |  Best Researcher Award

Associate Professor at  Southwest University,  China

Dr. Guilong Peng is an Associate Professor at Southwest University, specializing in Environmental Analytical Chemistry. He earned his Ph.D. in Municipal Engineering from Chongqing University and completed postdoctoral research in Environmental Science and Engineering at Tsinghua University. Dr. Peng’s research focuses on advanced oxidation processes, biochar applications, and environmental contaminant degradation. He has published extensively in prominent journals, contributing valuable insights into contaminant treatment and metal recovery. Dr. Peng is dedicated to advancing environmental chemistry, with a particular emphasis on practical solutions for pollution management.

Profile:

🎓 Education:

  • Postdoctoral Research, Environmental Science & Engineering, Tsinghua University (2017-2019)
  • Ph.D., Municipal Engineering, Chongqing University (2014-2017)
  • M.Sc., Analytical Chemistry, Southwest University (2011-2014)
  • B.Sc., Chemistry, Sichuan Normal University (2004-2008)

🧪 Research Focus:

  • Environmental Analytical Chemistry
  • Advanced Oxidation Processes
  • Biochar Applications

🏫 Professional Experience:

  • Associate Professor, Southwest University (2021–present)
  • Lecturer, Southwest University (2019–2021)

Publication Top Notes:

  • Analysis of the Steady-State Concentrations of Reactive Species and Their Role in Contaminant Degradation by the Iron-Biochar/Persulfate Advanced Oxidation Process: Comparison of Probe Compound and Quenching Agent Methods
    Separation and Purification Technology (2025-02)
    DOI: 10.1016/j.seppur.2024.128502
  • Activation of Metabisulfite by Dissolved Fe(III) at Environmentally Relevant Concentrations for Organic Contaminants Degradation
    International Journal of Molecular Sciences (2025-01-23)
    DOI: 10.3390/ijms26030953
  • Highly Efficient Removal of Organic Pollutants with HCO3−-Enhanced Ru(III)/NaClO Process
    International Journal of Molecular Sciences (2025-01-15)
    DOI: 10.3390/ijms26020677
  • The Role of Fe(IV) in the Zero-Valent Iron Biochar Activated Persulfate System for Treatment of Contaminants of Emerging Concern
    Chemical Engineering Journal (2024)
    DOI: 10.1016/J.CEJ.2024.150553
  • New Insights into the Quantification of Fe(IV) Using Methyl Phenyl Sulfoxide (PMSO) as Probe in the Iron-Based Heterogeneous Catalyst Activated Persulfate Process
    Environmental Pollution (2024-12)
    DOI: 10.1016/j.envpol.2024.124924
  • Cu-EDTA Decomplexation by UV/Peracetic Acid Oxidation and Coupled Cu Recovery by Alkaline Precipitation: Efficiency and Mechanism
    Chemical Engineering Journal (2024-10)
    DOI: 10.1016/j.cej.2024.155678
  • Catalytic Degradation of Ciprofloxacin in Aqueous Solution by Peroxymonosulfate Activated with a Magnetic CuFe2O4@Biochar Composite
    International Journal of Molecular Sciences (2023)
    DOI: 10.3390/IJMS24065702
  • Synthesis of an Environmentally Friendly Modified Mulberry Branch-Derived Biochar Composite: High Degradation Efficiency of BPA and Mitigation of Toxicity in Silkworm Larvae
    International Journal of Molecular Sciences (2023)
    DOI: 10.3390/IJMS24043609
  • Enhanced Fe(III)/Fe(II) Redox Cycle for Persulfate Activation by Reducing Sulfur Species
    Catalysts (2022)
    DOI: 10.3390/CATAL12111435
  • Activation of Peroxymonosulfate by Pyrophosphate for the Degradation of AO7 at Neutral pH
    Environmental Science and Pollution Research (2022-07)
    DOI: 10.1007/s11356-021-15391-3
  • Decomplexation of Ni(II)-Citrate and Recovery of Nickel from Chelated Nickel Containing Electroplating Wastewater by Peroxymonosulfate with Nickel
    Separation and Purification Technology (2022-01)
    DOI: 10.1016/j.seppur.2021.120142
  • A Facile Method to Fabricate AC/CuO for Efficient Removal of Organic Pollutants by Adsorption and Persulfate-Based Advanced Oxidation Processes
    AQUA – Water Infrastructure, Ecosystems and Society (2021)
    DOI: 10.2166/AQUA.2020.094

 

Mingyue Xu | Food Waste | Best Researcher Award

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Dr Mingyue Xu | Food Waste |  Best Researcher Award

Student at  University of Science and Technology Beijing China

Dr. Mingyue Xu is currently a student at the University of Science and Technology Beijing, where he is deeply engaged in the field of organic solid waste resources. He holds a master’s degree from the University of Science and Technology Beijing and a doctorate from Tsinghua University. Dr. Xu has made significant contributions to his field, having published 16 papers in reputable journals such as Bioresource Technology and Industrial Crops and Products. His research focuses on composting, biodrying, and organic fertilizer.

Profile:

🎓 Academic Background:

Mingyue Xu holds a master’s degree from the University of Science and Technology Beijing and is currently pursuing a doctorate at Tsinghua University.

🔬 Research Focus:

Mingyue specializes in the field of organic solid waste resources, with a keen interest in composting, biodrying, and organic fertilizers.

Conclusion:

Dr. Mingyue Xu appears to be a strong candidate for the Best Researcher Award due to his robust academic background, significant research contributions, involvement in national projects, and the practical impact of his work on organic solid waste resources. His research outputs and innovations in composting and biodrying technologies align well with the award criteria, making him a suitable contender for the Best Researcher Award.

📈 Metrics:

  • Citations: 176
  • Documents: 16
  • h-index: 7

Publication Top Notes:

  • In-situ Utilization of Nitrogen-Rich Wastewater Discharged from a Biotrickling Filter as a Moisture Conditioning Agent for Composting: Insights into Nitrogen Transformation Behavior and Microbial Mechanism
    Authors: Xie, D., Yang, M., Zhang, S., Wang, Q., Liu, S.
    Journal: Bioresource Technology
    Year: 2023
    Volume: 369
    Article Number: 128362
    Citations: 5
  • Biodrying of Biogas Residue: Maturity and Microbial Diversity Assessment
    Authors: Xu, M., Yang, M., Song, N., Wang, Q., Wu, C.
    Journal: Journal of Environmental Chemical Engineering
    Year: 2022
    Volume: 10(6)
    Article Number: 108757
    Citations: 5
  • Bioconversion of Biowaste into Renewable Energy and Resources: A Sustainable Strategy
    Authors: Xu, M., Yang, M., Sun, H., Wang, Q., Wu, C.
    Journal: Environmental Research
    Year: 2022
    Volume: 214
    Article Number: 113929
    Citations: 27
  • In-situ Utilization of Nitrogen-Rich Wastewater Discharged from a Biotrickling Filter as a Moisture Conditioning Agent for Composting: Effect of Nitrogen Composition
    Authors: Xie, D., Yang, M., Xu, M., Wang, Q., Liu, S.
    Journal: Bioresource Technology
    Year: 2022
    Volume: 362
    Article Number: 127828
    Citations: 6
  • Role of Multistage Inoculation on the Co-Composting of Food Waste and Biogas Residue
    Authors: Xu, M., Yang, M., Sun, H., Wang, Q., Wu, C.
    Journal: Bioresource Technology
    Year: 2022
    Volume: 361
    Article Number: 127681
    Citations: 27
  • Biodrying of Biogas Residue through a Thermophilic Bacterial Agent Inoculation: Insights into Dewatering Contribution and Microbial Mechanism
    Authors: Xu, M., Sun, H., Yang, M., Wang, Q., Wu, C.
    Journal: Bioresource Technology
    Year: 2022
    Volume: 355
    Article Number: 127256
    Citations: 29

 

Arash Mokhtari | Medicinal Plant | Best Researcher Award

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Dr Arash  Mokhtari |  Medicinal Plant |  Best Researcher Award

Research fellow at  Agriculture Biotechnology Research Institute of Iran (ABRII), Iran

Arash Mokhtari is a distinguished Agricultural Biotechnologist with extensive expertise in plant tissue culture and advanced biotechnological methodologies. He earned his Ph.D. in Agricultural Biotechnology from the University of Tehran, Iran, where he achieved National Rank 2 with his research on elicitor-mediated gene expression in Valeriana officinalis. His Master’s degree, also from the University of Tehran, focused on the effect of plant growth regulators on somatic embryogenesis in wheat.

Profile:

Research Excellence

Innovative Research: Dr. Mokhtari’s research in plant tissue culture and agricultural biotechnology is cutting-edge. His work on the elicitor-mediated expression of genes in Valeriana officinalis, and optimization of bioactive compound extraction methods, demonstrates significant contributions to the field of agricultural biotechnology.

Publication Record: With numerous high-impact publications, including studies on efficient production and accumulation of valuable compounds, Dr. Mokhtari has a robust record of disseminating his research. His papers are published in reputable journals, reflecting the high quality and relevance of his work.

Leadership and Impact

Leadership Roles: As Head of the Plant Tissue Culture Laboratory and Advanced Research Greenhouses at the Agricultural Biotechnology Research Institute, Dr. Mokhtari has shown leadership in both research and practical applications. His role in managing teams and optimizing research protocols indicates his capability in driving significant advancements in his field.

National Recognition: Dr. Mokhtari has achieved high national rankings in his academic endeavors, including his Ph.D. and Master’s studies, which underscores his excellence and impact in the field of agricultural biotechnology.

Practical Applications

Agricultural Biotechnology: His research directly impacts agricultural practices by improving plant propagation techniques and enhancing crop yield efficiency. The practical applications of his work in plant tissue culture and genetic improvement are crucial for advancing agricultural productivity.

Professional Affiliations

Institutional Involvement: Dr. Mokhtari is affiliated with prestigious institutions, including the Agricultural Biotechnology Research Institute of Iran and the College of Agriculture and Natural Resources at the University of Tehran. His involvement with these organizations highlights his commitment to advancing agricultural biotechnology.

Conclusion

Dr. Arash Mokhtari’s extensive research contributions, leadership in advanced biotechnology research, and the practical implications of his work make him a highly suitable candidate for the Research for Best Researcher Award. His innovative approaches and significant achievements in plant biotechnology stand out as exemplary in his field.

Publication Top Notes:

  • “A highly efficient method for somatic embryogenesis of Kelussia odorotissima Mozaff., an endangered medicinal plant” in Plant Cell, Tissue and Organ Culture (PCTOC), 2017.
  • “Effect of plant growth regulators on direct shoot regeneration of wheat immature embryonic explants” in Journal of Agricultural Engineering and Biotechnology, 2013.
  • “Direct regeneration from leaves and nodes explants of Physalis peruviana L.” in International Journal of Farming and Allied Sciences, 2013.
  • “Rosmarinic acid and anthocyanin content improvement by foliar application of Fe and Zn fertilizer in Lemon balm (Melissa officinalis L.)” in International Journal of Advanced Biological and Biomedical Research, 2014.
  • “Plant regeneration through callus induction on medicinal herb Viola odorata – Role of plant growth regulators and explants” in Agriculture & Forestry, 2015.
  • “Callus induction and plant regeneration of Valeriana officinalis are affected by different leaf explants and various concentrations of plant growth regulators” in BioTechnologia, 2016.
  • “Rapid micropropagation of Cucumis sativus var. Dastgerdi (Iranian cultivar) by Node Culture Technique” in British Biotechnology Journal, 2014.
  • “Effect of Plant Growth Regulators on Seed Germination and Development of Protocorm and Seedling of Phalaenopsis amabilis (L.) Blume (Orchidaceae)” in Annual Research & Review in Biology, 2014.
  • “Engineering of secondary metabolites in tissue and cell culture of medicinal plants: an alternative to produce beneficial compounds using bioreactor technologies” in Crop Improvement: Sustainability Through Leading-Edge Technology, Springer Publications, 2017.
  • “Interactive effects of plant growth regulators and explants on direct shoot regeneration of Viola odorata” in BioTechnologia, 2016.
  • “Influence of plant growth regulators on in vitro culture and regeneration of Dracocephalum kotschyi” in International Journal of Agriculture Innovations and Research, 2014.

 

Nadezda Verkhovtseva | Soil Pollution | Best Researcher Award

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Prof Dr Nadezda Verkhovtseva |  Soil Pollution |  Best Researcher Award

professor at MSU (Moscow State University named after M.V. Lomonosov,  Russia

Dr. N. Verkhovtseva is a distinguished Professor at the Department of Agrochemistry and Plant Biochemistry, Lomonosov Moscow State University (MSU). She pursued her studies in Agrochemistry at MSU, where she also earned her Ph.D. in 1975. Dr. Verkhovtseva has had a notable academic journey, having taught at Yaroslavl State University before joining the esteemed research group led by Kondrat’eva at MSU. In 1994, she obtained her Doctor of Science degree in Microbiology and subsequently secured the position of Professor at MSU’s Faculty of Soil Science. Her prolific career includes the publication of over 180 articles in both Russian and international journals. Dr. Verkhovtseva’s research contributions have earned her a significant citation index, with 46 citations in Web of Science, 57 in Scopus, and 984 in Science Index. She has authored eight books, holds one patent, and serves as the executive editor of the journal Problems of Agrochemistry and Ecology. Her professional memberships include the Soil Science Society. Dr. Verkhovtseva’s expertise and dedication have significantly advanced the fields of agrochemistry and plant biochemistry.

Profile

 

🎓 Academic and Professional Background:

Dr. N. Verkhovtseva studied Agrochemistry at Lomonosov Moscow State University (MSU), Russia. After graduation, she entered the graduate school of the same university and received her PhD in Agrochemistry in 1975. She then taught at Yaroslavl State University, Yaroslavl, Russia, before joining the research academic group of Kondrat’eva at MSU. In 1994, she received her Doctor of Science degree in Microbiology from MSU and became a professor in the Department of Agrochemistry and Plant Biochemistry, Faculty of Soil Science. She has published over 180 articles in both Russian and international journals.

🔬 Research and Innovations:

  • Citation Index: Web of Science: 46, Scopus: 57, Science index: 984
  • Books Published (ISBN): Eight
  • Patents: One published/under process
  • Journals Published (SCI, Scopus, etc.): 180

 

📚 Areas of Research:

  • Agrochemistry
  • Plant Biochemistry
  • Microbiology

 

🧪 Research Focus: Soil Pollution

Dr. Verkhovtseva’s research primarily focuses on soil pollution, investigating the impacts of contaminants on soil health and plant biochemistry. Her work aims to develop effective strategies for mitigating soil pollution and enhancing soil remediation techniques. Her contributions in this area have been instrumental in understanding the complex interactions between pollutants and soil ecosystems.

Publication Top Notes:

1. Effect of an Equal Dose of Polymetallic Pollution on the Microbiological Characteristics of Two Soils with Different Organic Carbon Contents

2. Metabolomic Analysis of Rhizosphere Soil Fertility in Maize (Zea mays) at Milking Stage

3. Physical-Tomographic Characteristics and Structure of Bacterial Community of the Agrophysical System “Germinating Roots—Pore Space of Soils” (Physical Model Experiment)

4. Structure of the Soil Pore Space in the Seedling Bed Before the Seedling Stage: Studies Using the Microtomography Method

5. X-ray Computed Tomography of the Structure of Roots and Dynamics of Soil Biota in the Early Growth Stages of Barley (Hordeum vulgare L.)

6. Aggregate Formation in a Kaolinite Suspension during Microbiological Modification of Clay Surface

7. Physical and Microbiological Aspects of the Soil Seed Bed in the Early Formation of the Barley Root System (Hordeum vulgare L.): Tomographic Studies

8. The Effect of Ericoid Mycorrhizal and Ectomycorrhizal Plants on Soil Properties of Grass Meadow in Tundra of the Khibiny Mountains

9. Formation of Microaggregates in Kaolinite Suspension Inoculated by Bacillus velezensis (SEM-investigations)

10. Chemodiagnostic by Lipid Analysis of the Microbial Community Structure in Trace Metal Polluted Urban Soil