Dr. Debjyoti Majumder | Environmental Chemistry | Best Researcher Award

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Dr. Debjyoti Majumder | Environmental Chemistry | Best Researcher Award

Dr. Debjyoti Majumder , Environmental Chemistry , Clover Organic Pvt. Ltd, India

Dr. Debjyoti Majumder (Ph.D., NET-ICAR) is an agricultural scientist with a specialization in agrometeorology, climate-resilient agriculture, and crop modeling. He has built a distinguished career addressing climate change impacts on crop systems, particularly focusing on rice and maize in eastern India. With a robust academic background from Bidhan Chandra Krishi Viswavidyalaya (BCKV) and Punjab Agricultural University (PAU), he combines theoretical insights with practical field applications. Currently serving as Subject Matter Expert at Clover Organic Pvt. Ltd. in Shillong, Meghalaya, he actively contributes to organic agriculture initiatives, project management, FPO support, and climate adaptation strategies. Previously, he worked as a Scientist (Agrometeorology) at Malda Krishi Vigyan Kendra and as a Technical Officer under the Ministry of Earth Sciences. Dr. Majumder has earned national recognition for his research and has contributed to over 30 scholarly publications. He is passionate about sustainable development, weather-based agroadvisory systems, and integrating ICT tools for farmer-centric innovation.

Professional Profile : 

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Summary of Suitability for Award:

Dr. Majumder has an impressive educational background with a Ph.D. in Agriculture, specializing in climate change impacts on crop productivity and resilience. He has received several prestigious scholarships, including a Junior Research Fellowship from the Indian Council of Agricultural Research (ICAR). His research focus on agrometeorology, weather-based advisory services, climate change impact, and sustainable agriculture is of significant importance in the current global context of climate change. His ability to integrate weather forecasting and crop management practices to help farmers is a testament to his impactful and practical research. His Google Scholar citations (266) and H-index (8) further emphasize the significance of his contributions. Dr. Debjyoti Majumder is a highly suitable candidate for the “Best Researcher Awards”. His academic achievements, innovative and impactful research in agrometeorology and sustainable agriculture, leadership roles, and widespread recognition by peers and academic institutions clearly demonstrate his excellence as a researcher. His work contributes significantly to climate change mitigation and agricultural sustainability, making him a key figure in his field.

🎓Education:

Dr. Majumder completed his B.Sc. in Agriculture from Bidhan Chandra Krishi Viswavidyalaya (BCKV), West Bengal, with specialization in natural resource management and rural work training. He pursued his M.Sc. in Agrometeorology from Punjab Agricultural University (PAU), where his research focused on assessing the impact of climate change on maize yield and water productivity through microclimate modification. He later earned his Ph.D. in Agrometeorology from BCKV, submitting a thesis on modeling rice productivity under future climate scenarios using the ORYZA2000 model. His academic excellence was consistently recognized through university merit scholarships, ICAR JRF (All India Rank 44), and department topper awards. In addition to formal degrees, he undertook short-term certifications in R programming, AI tools, and renewable energy in agriculture. He also participated in a summer training program at Tel Aviv University, Israel, adding international exposure to his academic journey. His education has provided a solid foundation in research, extension, and policy relevance.

🏢Work Experience:

Dr. Majumder is currently serving as a Subject Matter Expert at Clover Organic Pvt. Ltd., Shillong, where he is involved in implementing climate-resilient agricultural practices, promoting organic certification, and managing development projects for farmer producer organizations (FPOs). Prior to this, he worked as SMS (Agrometeorology) at Malda Krishi Vigyan Kendra under UBKV, West Bengal, where he was responsible for disseminating agromet advisories, conducting farmer trainings, preparing weather forecasts, and managing drought/pest alerts. He also served as a Technical Officer at Bihar Agricultural University under the Ministry of Earth Sciences, where he contributed to the Gramin Krishi Mausam Sewa project by working on weather forecasting and agro-climatic research. Across these roles, he has integrated decision support tools, crop models, and ICT platforms for data-driven agricultural planning. His work spans from field-level interventions to strategic planning for climate adaptation and digital agriculture, making him a versatile contributor to sustainable rural development.

🏅Awards: 

Dr. Majumder has received multiple accolades in recognition of his research and extension contributions. He was honored with the Young Scientist Award by the Institute of Scholars (INSc), Bengaluru, and the Best KVK Scientist Award by Vigyan Varta, Bhubaneswar. He also received the Young Scientist Award in Agrometeorology from UBKV and was recognized for Best Oral Presentations at national symposia hosted by TNAU and UBKV. His poster on climate-resilient agriculture earned the 2nd Best Poster Award at an international seminar hosted by the Society for Fertilizer and Environment. Additionally, he won the Paper of Excellence Award from ICAR-CRIDA and the Indian Society of Agrophysics. His academic achievements include being a university merit scholar, department topper, and ICAR JRF recipient. With over 260 citations and an H-index of 8, Dr. Majumder has demonstrated scholarly impact. He also received a DST-SERB travel grant to represent his work internationally, underlining the relevance of his research.

🔬Research Focus:

Dr. Majumder’s research centers on climate-resilient agriculture, crop modeling, and agrometeorological applications. His primary focus is on quantifying the impacts of climate variability on rice and maize productivity using advanced crop simulation models such as ORYZA2000, DSSAT, and INFOCROP. He explores climate risk management through microclimate modification, water-use efficiency, and sustainable input application. His research also integrates ICT tools, such as R, Weather Cock, Drinc, and QGIS, to develop decision support systems for farmers and policymakers. He is particularly interested in modeling future climate scenarios and designing location-specific adaptation strategies that are practical and scalable. In addition, he works on organic farming systems, watershed management, and participatory technology development. Dr. Majumder’s work bridges the gap between predictive modeling and grassroots implementation, enabling him to support climate-smart planning in vulnerable agro-ecological zones. His goal is to enhance agricultural resilience while promoting environmentally sustainable practices in India’s diverse farming landscapes.

Publication Top Notes:

1. Physiological and Molecular Mechanism of Insect Herbivory Tolerance in Plants: A Potential Tool for Resistance Breeding

2. Climate-Smart Technologies for Improving Sugarcane Sustainability in India – A Review

3. Mechanical Transplanting of Rice for Reducing Water, Energy, and Labor Footprints with Improved Rice Yields in the Tropics

 

Dr. Yan Xue | Environmental Chemistry | Sustainable Chemistry Award

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Dr. Yan Xue | Environmental Chemistry | Sustainable Chemistry Award

Dr. Yan Xue , Nanjing Agricultural University , China

Dr. Yan Xue is a researcher at Nanjing Agricultural University, specializing in environmental nanomaterials. His research focuses on the high-value utilization of green composite nanomaterials derived from modified graphene/graphene-like biochar-based materials. Dr. Xue explores real-time environmental monitoring, remediation of complex environmental conditions, and the development of energy storage devices such as supercapacitors and ionic batteries. His work aligns with global sustainability goals, emphasizing waste-to-waste treatment strategies and eco-friendly material applications. He has contributed significantly to the fields of electrocatalysis, intelligent energy management, and lignocellulose conversion, publishing multiple high-impact research papers.

Professional Profile : 

Orcid

Summary of Suitability for Award:

Dr. Yan Xue is an exceptional candidate for the “Sustainable Chemistry Award” due to his pioneering research in environmental nanomaterials and green chemistry applications. His work focuses on the high-value utilization of biomass-derived functional materials, aligning perfectly with the principles of sustainability, circular economy, and green chemistry. He has contributed significantly to waste-to-waste treatment strategies, converting agricultural and industrial biomass into high-performance materials for environmental remediation, electrochemical sensing, and energy storage applications. His research also supports carbon neutrality and sustainable energy solutions, making a strong impact on global environmental goals. Dr. Yan Xue’s contributions to sustainable chemistry, nanotechnology, and green energy solutions demonstrate scientific excellence and real-world impact. His research addresses critical environmental challenges through eco-friendly material synthesis, pollutant remediation, and sustainable energy storage. Given his innovative approach, interdisciplinary expertise, and commitment to green chemistry, he is a highly suitable candidate for the “Sustainable Chemistry Award”.

🎓Education:

Dr. Yan Xue pursued his academic journey with a strong focus on environmental sciences and materials chemistry. He obtained his doctoral degree from Nanjing Agricultural University, where he specialized in graphene-based biochar nanomaterials. His education was rooted in green chemistry, electrochemical energy storage, and sustainable material applications. His thesis emphasized the modification of biochar-derived nanomaterials for enhanced environmental performance and energy conversion efficiency. With a deep interest in sustainable chemistry and intelligent energy systems, Dr. Xue’s academic training laid a solid foundation for his ongoing research in eco-friendly functional materials.

🏢Work Experience:

Dr. Yan Xue has extensive research experience in high-value biomass utilization, electrocatalysis, and green energy applications. His expertise includes preparing and functionalizing graphene-based nanomaterials for energy storage and environmental monitoring. He has worked on tunable biochar modifications for real-time sensing and remediation of pollutants. Additionally, Dr. Xue has contributed to the development of bio-based energy devices, including supercapacitors and ionic batteries. His interdisciplinary approach integrates materials chemistry, nanotechnology, and environmental sciences to develop innovative solutions for sustainable energy and pollution control.

🏅Awards: 

Dr. Yan Xue has been recognized for his contributions to green materials research and environmental nanotechnology. His work in waste-derived nanomaterials has received accolades in academic and industrial settings. He has been cited in high-impact journals, reflecting his significant contributions to sustainable chemistry and advanced materials. His research in biochar-based nanomaterials has positioned him among emerging leaders in eco-friendly energy storage solutions.

🔬Research Focus:

Dr. Yan Xue’s research primarily focuses on environmental nanomaterials, emphasizing the high-value utilization of biomass-derived functional materials for sustainable applications. His work explores the synthesis, modification, and application of graphene/graphene-like biochar-based nanomaterials to address critical environmental challenges. He specializes in the development of advanced electrochemical sensors, pollutant remediation systems, and green energy storage solutions, integrating principles of electrocatalysis, intelligent energy management, and nanotechnology. Dr. Xue is particularly interested in waste-to-waste treatment strategies, converting agricultural and industrial biomass into high-performance nanomaterials for supercapacitors, ionic batteries, and pollutant detection systems. His research also extends to functional nanocomposites, such as metallic-like boron-doped biochar, porphyrin-modified nanocatalysts, and hybrid carbon nanostructures, for enhanced electrocatalytic performance and environmental sensing. By merging materials chemistry, environmental science, and nanotechnology, Dr. Xue contributes to the development of eco-friendly, cost-effective, and scalable solutions for sustainable energy and pollution control.

Publication Top Notes:

Enhancing capacitive performance through solvent-coupled two-step carbonization of cotton stalk biochar with tunable melamine doping: Deciphering the redox activity of pyrrolic nitrogen

Authors: Yan Xue, [Additional authors not specified]

Journal: International Journal of Hydrogen Energy

Publication Date: March 2025

DOI: 10.1016/j.ijhydene.2025.02.057

New insights into temperature-induced mechanisms of copper adsorption enhancement on hydroxyapatite-in situ self-doped fluffy bread-like biochar

Authors: Yan Xue, [Additional authors not specified]

Journal: Chemical Engineering Journal

Publication Date: January 2024

DOI: 10.1016/j.cej.2023.147657

Efficiently catalytic degradation of tetracycline via persulfate activation with plant-based biochars: Insight into endogenous mineral self-template effect and pyrolysis catalysis

Authors: Yan Xue, [Additional authors not specified]

Journal: Chemosphere

Publication Date: October 2023

DOI: 10.1016/j.chemosphere.2023.139309

Metallic-like boron-modified bio-carbon electrodes for simultaneous electroanalysis for Cd²⁺, Pb²⁺ and Cu²⁺: Theoretical insight into the role of CxBOy(H)

Authors: Yan Xue, [Additional authors not specified]

Journal: Carbon

Publication Date: October 2023

DOI: 10.1016/j.carbon.2023.118350

Highly selective colorimetric platinum nanoparticle-modified core-shell molybdenum disulfide/silica platform for selectively detecting hydroquinone

Authors: Yan Xue, [Additional authors not specified]

Journal: Advanced Composites and Hybrid Materials

Publication Date: August 2023

DOI: 10.1007/s42114-023-00719-z

Pt deposited on sea urchin-like CuCo₂O₄ nanowires: Preparation, the excellent peroxidase-like activity and the colorimetric detection of sulfide ions

Authors: Yan Xue, [Additional authors not specified]

Journal: Journal of Environmental Chemical Engineering

Publication Date: April 2022

DOI: 10.1016/j.jece.2022.107228

Porphyrin-Modified NiS₂ Nanoparticles Anchored on Graphene for the Specific Determination of Cholesterol

Authors: Yan Xue, [Additional authors not specified]

Journal: ACS Applied Nano Materials

Publication Date: November 26, 2021

DOI: 10.1021/acsanm.1c02318

V₂O₅-montmorillonite nanocomposites of peroxidase-like activity and their application in the detection of H₂O₂ and glutathione

Authors: Yan Xue, [Additional authors not specified]

Journal: Applied Clay Science

Publication Date: September 2020

DOI: 10.1016/j.clay.2020.105718

 

 

 

 

Dr. Ruijuan Qu | Environmental Chemistry Award | Best Researcher Award

Posted on by Chemistry Awards

Dr. Ruijuan Qu | Environmental Chemistry Award | Best Researcher Award

Dr. Ruijuan Qu , Nanjing University , China

Ruijuan Qu is an Associate Professor at Nanjing University, China, specializing in environmental chemistry and the transformation of organic pollutants. With a strong academic background and extensive research experience, she focuses on the development of quantitative structure-activity relationship (QSAR) models to analyze organic pollutants and improve green degradation methods. Since receiving her Ph.D. from Nanjing University in 2015, she has advanced through various research positions, including assistant researcher and associate researcher, before her current role. She collaborates with international researchers to innovate in environmental technology, notably with Professor Virender K. Sharma at Texas A&M University. Recognized globally, she was listed among Stanford University’s World’s Top 2% Scientists in 2023, emphasizing her significant impact in environmental research.

Professional Profile:

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Summary of Suitability for Award:

Dr. Ruijuan Qu is an exemplary candidate for the Best Researcher Award due to her extensive contributions to environmental science, her innovative research methodologies, and her global recognition. Her work addresses crucial environmental challenges, with real-world applications in water treatment and pollutant degradation. The combination of high-impact publications, patents, collaborations with top global scientists, and her leadership in editorial roles makes her highly deserving of this prestigious recognition. Her commitment to advancing both scientific knowledge and practical environmental solutions places her at the forefront of research in her field.

🎓Education:

Ruijuan Qu completed her undergraduate and postgraduate studies at Nanjing University. After earning her Bachelor’s degree in Environmental Chemistry, she pursued a Ph.D. in Environmental Science, which she completed in 2015. Her doctoral research laid the foundation for her expertise in the environmental transformation of organic pollutants, focusing on quantitative structure-activity relationship (QSAR) analysis. With a commitment to understanding pollutants at a molecular level, she integrated principles of computational chemistry with experimental analysis to map the pathways pollutants take in natural and engineered environments. This innovative approach helped her build a strong knowledge base that informs her teaching and research today. Her education was marked by rigorous training in advanced analytical techniques, preparing her to lead complex projects in environmental science and to contribute valuable insights in her role as an academic and researcher.

🏢Work Experience:

Dr. Ruijuan Qu began her career as an Assistant Researcher at Nanjing University, progressing to Associate Researcher from 2018 to 2019, before being appointed Associate Professor in 2019. She has led several high-impact research projects, primarily focused on the fate of organic pollutants in the environment. Dr. Qu’s work on chemical oxidation processes has uncovered key insights into the catalytic roles of metals in pollution treatment, significantly advancing the field of environmental science. She has also collaborated with global experts, notably Prof. Virender K. Sharma at Texas A&M University, on ferrate oxidation studies, resulting in transformative findings on pollutant degradation mechanisms. Alongside her research, Dr. Qu serves as a managing editor and editorial board member for reputed journals, contributing to the advancement of environmental science literature. Her experience demonstrates her expertise in both independent and collaborative research environments.

🏅Awards:

Ruijuan Qu has earned several prestigious accolades for her research. In 2023, she was named to Stanford University’s esteemed World’s Top 2% Scientists List, recognizing her significant influence and high citation impact in environmental science. Her innovative contributions in environmental chemistry have not only advanced pollution treatment but have also fostered new methodologies in quantitative structure-activity relationship (QSAR) analysis. Dr. Qu’s pioneering work has also been acknowledged through editorial appointments at high-impact journals, such as Reviews of Environmental Contamination and Toxicology and Toxics, where she serves as a managing editor and guest editor. Her reputation in the field is further established by her role as a key collaborator in international research projects, particularly with Texas A&M University. These awards and honors underscore her commitment to impactful, high-quality research and her ongoing contribution to solving complex environmental challenges.

🔬Research Focus:

Dr. Ruijuan Qu’s research focuses on the environmental transformation of organic pollutants, particularly through chemical oxidation processes. Her work employs quantitative structure-activity relationship (QSAR) modeling to analyze pollutant degradation pathways. A major aspect of her research is the catalytic role of various substances, such as bismuth hydroxide, in ferrate oxidation treatment, an innovative approach for water and wastewater purification. Dr. Qu has developed a comprehensive method for pollutant analysis that combines non-target mass spectrometry, preparative separation, and simplified transition state calculations. Her research on the polymerization of phenols during oxidation has revealed critical insights into promoting low-carbon oxidation treatments. Additionally, her studies in silica modification have expanded catalytic activity into the infrared spectrum, enabling more efficient degradation of persistent organic pollutants. This multidisciplinary focus positions Dr. Qu at the forefront of environmental science, advancing sustainable technologies for pollutant management.

Publication Top Notes:

  •  Photodegradation of polychlorinated biphenyls (PCBs) on suspended particles from the Yellow River under sunlight irradiation: QSAR model and mechanism analysis
  •  Effect of Dissolved Organic Matter on the Photodegradation of Decachlorobiphenyl (PCB-209) in Heterogeneous Systems: Experimental Analysis and Excited-State Theory Calculation
  •  Photocatalytic degradation of decabromodiphenyl ethane (DBDPE) by wide solar spectrum-responsive nitrogen doped silica
  • Effect of small-molecule phenolic compounds on the removal of triclosan (TCS) by heat/persulfate process Formation of cross-coupling products and implications for wastewater treatment
  •  Enhanced permanganate oxidation of phenolic pollutants by alumina and potential industrial application