Patrycja Żak | Environmental Chemistry | Women Researcher Award

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Assoc. Prof. Dr. Patrycja Żak | Environmental Chemistry | Women Researcher Award

Associate Professor, UAM Poznań, Poland.

Dr. Patrycja Żak is an Associate Professor in the Department of Organometallic Chemistry at Adam Mickiewicz University in Poznań, Poland. She holds a distinguished academic and research career focused on green chemistry, organometallic synthesis, and functional nanomaterials. With over 47 peer-reviewed publications and 16 patents, her contributions span catalysis, silsesquioxane chemistry, and environmentally friendly synthetic methodologies. A highly respected scientist, she has led multiple national and European research projects and mentored doctoral candidates. Her scientific work emphasizes sustainable practices through the use of organocatalysis and mechanochemistry. Dr. Żak is a collaborative researcher, partnering with international and national institutions to expand the frontiers of materials and inorganic chemistry. Her dedication has earned her a place in prestigious scientific networks and journals as a reviewer and contributing author. Through her innovative and impactful work, Dr. Żak exemplifies excellence in chemical research and its practical application.

Professional Profile 

Dr. Patrycja Żak completed her entire academic education at Adam Mickiewicz University in Poznań, Poland, where she laid the foundation for her scientific journey. She earned her Master of Science degree in Chemistry under the supervision of Prof. Marciniec. Continuing under the same mentor, she pursued and successfully defended her Ph.D. in Chemistry , focusing on advanced organometallic systems. Demonstrating a consistent trajectory of academic growth, she achieved her habilitation at the same institution, a significant milestone in European academia reflecting her independent research capabilities and teaching qualifications. Her educational path reflects a deep commitment to chemical sciences, and her studies were grounded in synthetic and structural chemistry, particularly relating to silicon-based compounds and catalysts. This solid academic base has underpinned her research excellence, enabling her to contribute meaningfully to interdisciplinary fields, particularly in developing green and sustainable chemical methods.

Experience 

Dr. Żak has accumulated over 15 years of academic and research experience at Adam Mickiewicz University. She began her professional career as an adjunct faculty member and was promoted to Associate Professor. Her work has been briefly paused due to maternity leaves and a short health-related hiatus, but she returned to academia with renewed vigor. During her tenure, she has taken on roles beyond teaching and research, including supervising doctoral projects and serving on selection commissions for post-doc and master’s program candidates. She has actively contributed to collaborative research with international scientists and led industry-related projects, such as the development of efficient synthesis methods at AdvaChemLab. Her extensive project portfolio includes national grants like OPUS, SONATA, and MAESTRO, where she served as both investigator and principal investigator. These experiences have shaped her as a leader in her field, merging academic excellence with research innovation and mentorship.

Professional Development

Throughout her career, Dr. Żak has consistently engaged in professional development activities to enhance her academic and research contributions. She is a member of the Polish Chemical Society and has served as a reviewer for prestigious journals such as ChemSusChem, Inorganic Chemistry, and ChemCatChem. She also acted as a tutor in Environmental and Material Chemistry and served on several selection commissions for post-doc and master’s program candidates. Dr. Żak participated as an organizing committee member for the 8th European Silicon Days Conference. Internationally, she broadened her expertise through a six-month research exchange under the Socrates-Erasmus Program in Belgium. She continually refines her skills through leading-edge research projects and supervising doctoral candidates. These roles reflect her commitment to staying at the forefront of chemical science, emphasizing collaborative growth, academic integrity, and leadership in research dissemination, all of which have significantly contributed to her development as an esteemed scientist in organometallic and green chemistry.

Skills & Expertise

Dr. Patrycja Żak possesses an extensive skill set that bridges experimental chemistry, project leadership, and academic mentorship. She is highly proficient in organometallic synthesis, catalysis (particularly organocatalysis), and mechanochemical methods, enabling the development of green and efficient chemical transformations. Her expertise includes the design and functionalization of silicon-based nanomaterials such as silsesquioxanes. She has demonstrated strong abilities in analytical characterization techniques, photophysical studies, and collaborative interdisciplinary research. She effectively manages national and European research grants, showcasing organizational and leadership capabilities. In academia, she is skilled in curriculum development, supervising postgraduate students, and contributing to peer review and academic publishing. Furthermore, her role in organizing international conferences and reviewing for high-impact journals highlights her communication and evaluative skills. Her ability to innovate while adhering to sustainability principles marks her as a skilled and future-ready researcher in both academic and applied chemical sciences.

Resarch Focus

Dr. Patrycja Żak’s primary research focus lies at the intersection of Green Chemistry, Organometallic Chemistry, and Material Chemistry. Her work emphasizes the design of environmentally friendly and sustainable synthetic methods using organocatalysis and mechanochemistry. She is particularly focused on eliminating hazardous solvents and toxic metal-based catalysts by developing N-heterocyclic carbene-catalyzed transformations. Her research also targets the synthesis and functionalization of silsesquioxanes and nanomaterials with well-defined thermal and photochemical properties. Additionally, she explores thioester and heterocycle synthesis from unsaturated aldehydes and other functionalized compounds, contributing to the growing demand for sustainable, efficient chemical pathways. The research she leads aligns with cutting-edge themes in chemical sustainability, structure-property relationships in hybrid materials, and catalyst design for selective transformations. Her projects consistently follow the principles of atom economy and eco-compatibility, placing her work firmly within the green and sustainable chemistry category, with wide applications in pharmaceuticals, materials science, and nanotechnology.

Awards & Recognitions

Dr. Żak’s scientific excellence is reflected in her numerous achievements and recognitions. She has published 47 papers in Scopus-indexed journals, with an additional paper accepted and one under minor revision, showcasing consistent high-quality output. Her work has received over 662 citations in Scopus and 527 in Web of Science, with an h-index of 14, signifying both productivity and scholarly impact. She has authored chapters in scientific books and contributed to academic handbooks, such as the “Laboratory Experiments in Basic Inorganic Chemistry.” Moreover, her innovation has led to 16 patents across multiple jurisdictions including the US, EU, China, and Poland. She has also served as project manager and principal investigator for prestigious national projects including SONATA, POMOST, and OPUS. In addition, she plays a pivotal role in guiding doctoral candidates under Poland’s “Initiative of Excellence” programs. These distinctions underline her commitment to impactful, innovative, and globally relevant chemical research.

Publication Top Notes 

Conclusion:

Overall, Dr. Patrycja Żak is an exceptionally strong candidate for the Women Researcher Award. Her impressive academic productivity, innovation in sustainable chemistry, mentorship record, and project leadership clearly match the criteria for recognizing excellence among women in science. Minor enhancements, such as expanding industrial collaborations and increasing policy outreach, could further amplify her profile in the future. Nonetheless, she fully deserves acknowledgment as a role model inspiring future generations of women scientists working toward a greener and more sustainable world.

Luciana Rocha Santos | Environmental Engineering | Best Researcher Award

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Mrs. Luciana Rocha Santos | Environmental Engineering | Best Researcher Award

PhD Candidate at FEEVALE University , Brazil.

🔬 Short Biography 🌿💊📚

Luciana R. Santos is a passionate and driven Ph.D. candidate in Environmental Quality 🌱, committed to advancing sustainable technologies. With a strong academic foundation in Chemical Engineering ⚗️ and a Master’s degree in Materials Technology 🧪, she has developed expertise in innovative solutions for environmental challenges. Her research delves into developing advanced coatings, functional biomaterials, and exploring pyrolysis processes for converting industrial waste into bio-oil ♻️. Luciana plays a vital role in R&D projects that intersect material science and green technology 🌍. She is known for her methodical approach, scientific curiosity, and commitment to reducing industrial environmental impacts through innovative material applications. Her academic journey and hands-on research experience position her as a rising expert in sustainable engineering and environmental science 🚀.

PROFILE 

ORCID 

🔍 Summary of Suitability:

Luciana R. Santos exemplifies the qualities of a top-tier researcher, making her an excellent nominee for the Best Researcher Award. With a robust academic foundation—B.Sc. in Chemical Engineering, M.Sc. in Materials Technology, and current Ph.D. work in Environmental Quality—she has demonstrated academic excellence and a deep commitment to sustainable science. 🌱📚 Her research spans coatings, biomaterials, and waste-to-energy technologies, areas that have significant societal and environmental impact.

Luciana actively contributes to high-impact R&D projects and recently co-authored a peer-reviewed journal article titled “Strategic Techniques for Upgrading Bio‐Oil from Fast Pyrolysis: A Critical Review” in a reputable journal, showing her engagement with cutting-edge scientific advancements. 📘 Her interdisciplinary approach, combining engineering, environmental science, and materials technology, speaks to her versatility and innovation. She works with industrial waste pyrolysis to produce bio-oil, addressing global challenges like waste management and clean energy. ⚡♻️

📘 Education

Luciana R. Santos began her academic journey with a degree in Chemical Engineering ⚙️, laying the foundation for her expertise in industrial and environmental processes. Building on this, she earned a Master’s in Materials Technology 🧫, where she explored the development and application of advanced materials. Currently, she is pursuing her Ph.D. in Environmental Quality 🌿, focusing on sustainable innovations and eco-friendly solutions to modern challenges. Throughout her career, Luciana has been actively involved in R&D projects that integrate material science, sustainability, and engineering. Her practical experience includes working on cutting-edge technologies such as biomaterial development, high-performance coatings, and pyrolysis of industrial waste for bio-oil production 🔥. Her academic background and research experience make her a valuable contributor to multidisciplinary environmental initiatives 🧠.

Professional Experience

Luciana R. Santos has continually advanced her professional development through dedicated academic pursuits and impactful research involvement 🎓. Her transition from Chemical Engineering to Materials Technology and finally to Environmental Quality reflects her evolving focus toward sustainable development 🌍. By participating in interdisciplinary R&D projects, she has cultivated a deep understanding of material-environment interactions and their potential in circular economy models 🔄. Luciana has gained significant expertise in handling real-world challenges by developing biomaterials, protective coatings, and alternative energy solutions such as bio-oil from waste via pyrolysis 🔬. She frequently engages in academic conferences, workshops, and collaborative initiatives that foster innovation and scientific networking 🤝. Her professional path demonstrates a commitment to continual learning, applied research, and leadership in sustainability-focused material engineering 💡.

Research Focus 🔍🤖

Luciana R. Santos focuses her research on the intersection of materials science and environmental engineering 🌿. Her core areas include developing sustainable coatings, biomaterials for medical and environmental applications, and advanced waste-to-energy technologies 🔁. A significant portion of her work centers around the pyrolysis of industrial waste to produce bio-oil, contributing to renewable energy and waste valorization efforts ⚡. She explores how modified materials can improve environmental quality and extend the life of infrastructure through protective solutions 🛡️. Her multidisciplinary approach brings together chemistry, engineering, and environmental science to create practical innovations that reduce ecological footprints 🌱. Luciana’s work is aligned with the principles of green chemistry and the circular economy, targeting eco-efficient industrial practices. Her research contributes significantly to the sustainable development goals (SDGs), particularly those related to clean energy, responsible consumption, and climate action 🌎.

Awards and Honors 🏆🎖️

  • 🏆 Ph.D. Scholarship in Environmental Quality

  • 🥇 Master’s Research Fellowship in Materials Technology

  • 🎖️ Recognition for Excellence in Chemical Engineering Studies

  • 📜 Participation in National R&D Collaborative Projects

  • 🧪 Honored for Innovation in Pyrolysis and Bio-oil Production Research

Publications & Citations 📚

📘 Strategic Techniques for Upgrading Bio‐Oil from Fast Pyrolysis: A Critical ReviewBiofuels, Bioproducts and Biorefining 🛢️📄 | 🗓️ Published: 2025-05-08 | ✍️ Authors: Luciana R. Santos, Daniela R. Araujo, Marco A.S. Rodrigues | 🔗 DOI: 10.1002/bbb.2789 | 📊

🔍 Conclusion:

Luciana R. Santos is a highly deserving candidate for the Best Researcher Award. Her scientific rigor, impactful research, and commitment to sustainability position her as a forward-thinking leader in environmental and materials science. 🌍💡 Her contributions not only advance academic knowledge but also offer practical solutions to real-world environmental challenges. Awarding her would be a recognition of both her achievements and her potential to lead future innovations in sustainable technologies. 🚀👏

Prof. Jinhui Zhao| Environmental Chemistry| Best Researcher Award

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Prof. Jinhui Zhao| Environmental Chemistry| Best Researcher Award

Director of the Research Institute at Nanjing Tech University, China.

🔬 Short Biography 🌿💊📚

Dr. Jinhui Zhao is an Associate Professor at Nanjing Tech University specializing in environmental chemistry and water treatment technologies. With a Ph.D. in Environmental Engineering, he has published over 50 research articles, including 15 SCI-indexed papers, and holds 10 patents related to pollutant removal and sustainable water systems. His work focuses on the migration and transformation of contaminants in aquatic environments and the development of eco-friendly treatment methods. Dr. Zhao has led multiple national and industrial research projects and actively contributes to innovative solutions for global environmental challenges.

PROFILE 

ORCID 

SCOPUS 

🔍 Summary of Suitability:

Dr. Zhao Jinhui stands out as an applied environmental scientist with impactful research on water treatment technologies and pollutant migration. His work bridges environmental chemistry, public health, and sustainable engineering. His integration of theory with practical applications and industry relevance marks him as a leader in his field. With publications, patents, awards, and high-profile collaborations, he demonstrates a robust and balanced academic profile.

📘 Education

Professor Zhao Jinhui holds a solid academic foundation in environmental and chemical engineering sciences, which has guided his path into research and higher education. He has pursued advanced training in water environmental chemistry and related technologies, which laid the groundwork for his specialization in pollutant behavior and water resource management. His educational background also supports his active role in publishing professional books and developing technical standards in environmental science. This comprehensive academic journey has been instrumental in shaping his expertise in water treatment and sustainability.

Professional Experience

With over a decade of professional and academic experience, Professor Zhao serves as an Associate Professor at Nanjing Tech University. He has led five research projects and completed more than 60 consultancy and industry collaborations, particularly focusing on water treatment, reclaimed water utilization, and pollutant migration. Zhao’s practical expertise extends beyond academia, demonstrated through his leadership in large-scale projects such as those under China’s 863 Program. His innovations have translated into real-world applications, especially in the implementation of constructed wetland technologies for wastewater treatment and power generation, solidifying his role as a leader in applied environmental research.

Skills and Competencies

Zhao Jinhui’s key skills include water quality analysis, advanced water treatment technologies, pollutant migration modeling, and constructed wetlands optimization. His ability to bridge chemical engineering principles with biological systems sets him apart in environmental sustainability research. He also exhibits strong project management and consultancy skills, having led high-impact industry collaborations.

Research Focus 🔍🤖

Professor Zhao Jinhui’s research centers on water environmental chemistry, with a strong emphasis on sustainable water treatment technologies and pollutant behavior in aquatic systems. He investigates the recycling and reuse of reclaimed water and rainwater, aiming to improve water security and environmental protection. A major aspect of his work involves studying the migration and transformation of organic and inorganic pollutants during various treatment processes, including advanced oxidation and constructed wetlands. His interdisciplinary approach combines chemical, biological, and engineering techniques to enhance pollutant removal efficiency while promoting eco-friendly practices. Zhao’s research contributes significantly to water sustainability and green innovation.

Awards and Honors 🏆🎖️

Zhao received the Third Prize in Science and Technology from the China General Chamber of Commerce for his contributions to constructed wetlands for wastewater treatment and energy generation. His applied research has significantly influenced environmental engineering practices in China.

Publications & Citations 📚

  1. Title: Comparison of Field Infiltration Test Methods for Permeable Pavement: Toward a Further Easy and Accurate Method
    Journal: Clean – Soil, Air, Water
    DOI: 10.1002/clen.201900174
    Authors: Zhao, Jinhui
    Year: 2019

  2. Title: Water and energy saving potential by adopting pressure-reducing measures in high-rise building: A case analysis
    Journal: Building Services Engineering Research and Technology
    DOI: 10.1177/0143624417751056
    Authors: Zhao, Jinhui
    Year: 2018

  3. Title: A fancy eco-compatible wastewater treatment system: Green Bio-sorption Reactor
    Journal: Bioresource Technology
    DOI: 10.1016/j.biortech.2017.03.037
    Authors: Zhao, Y.; Liu, R.; Zhao, J.; Xu, L.; Sibille, C.
    Year: 2017

  4. Title: Advanced treatment of actual textile dye wastewater by Fenton-flocculation process
    Journal: Canadian Journal of Chemical Engineering
    DOI: 10.1002/cjce.22752
    Authors: Xiao, X.; Sun, Y.; Sun, W.; Shen, H.; Zheng, H.; Xu, Y.; Zhao, J.; Wu, H.; Liu, C.
    Year: 2017

  5. Title: Constructed wetland integrated microbial fuel cell system: Looking back, moving forward
    Journal: Water Science and Technology
    DOI: 10.2166/wst.2017.190
    Authors: Wang, Y.; Zhao, Y.; Xu, L.; Wang, W.; Doherty, L.; Tang, C.; Ren, B.; Zhao, J.
    Year: 2017

  6. Title: Embedding constructed wetland in sequencing batch reactor for enhancing nutrients removal: A comparative evaluation
    Journal: Journal of Environmental Management
    DOI: 10.1016/j.jenvman.2017.01.080
    Authors: Liu, R.; Zhao, Y.; Zhao, J.; Xu, L.; Sibille, C.
    Year: 2017

  7. Title: Agricultural runoff pollution control by a grassed swales coupled with wetland detention ponds system: A case study in Taihu Basin, China
    Journal: Environmental Science and Pollution Research
    DOI: 10.1007/s11356-016-6150-2
    Authors: Zhao, J.; Zhao, Y.; Zhao, X.; Jiang, C.
    Year: 2016

  8. Title: Highway runoff treatment by hybrid adsorptive media-baffled subsurface flow constructed wetland
    Journal: Ecological Engineering
    DOI: 10.1016/j.ecoleng.2016.02.020
    Authors: Zhao, J.; Zhao, Y.; Xu, Z.; Doherty, L.; Liu, R.
    Year: 2016

  9. Title: UV/TiO₂ photocatalytic disinfection of carbon-bacteria complexes in activated carbon-filtered water: Laboratory and pilot-scale investigation
    Journal: Journal of Environmental Science and Health, Part A: Toxic/Hazardous Substances and Environmental Engineering
    DOI: 10.1080/10934529.2015.1055155
    Authors: Zhao, J.H.; Chen, W.; Zhao, Y.; Liu, C.; Liu, R.
    Year: 2015

🔍 Conclusion:

Highly suitable for the Best Researcher Award. Dr. Zhao’s contributions in environmental chemistry and sustainable water systems have tangible societal benefits and scientific depth. Strategic international engagement and editorial roles would further amplify his already strong research trajectory.

Keke Zhi | Water environment restoration | Best Researcher Award

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Dr. Keke Zhi | Water environment restoration | Best Researcher Award

China University of Petroleum-Beijing at Karamay , China.

Dr. Keke Zhi 🎓 is an Associate Professor and Master’s supervisor at China University of Petroleum (Beijing), Karamay Campus. Recognized as a Young Top Talent under Xinjiang’s “Tianshan Talents” program 🌟, his work spans catalytic chemistry, imprinted materials, and environmental remediation 🌍. With a Ph.D. from the University of Chinese Academy of Sciences 🎓 and numerous high-impact publications 📚, Dr. Zhi focuses on designing innovative solutions for wastewater treatment, CO₂ reduction, and lithium extraction ⚗️. His passion for applied chemistry drives his mission to convert biomass into high-value products 🌿, supporting sustainability and technological advancement ♻️.

PROFILE 

SCOPUS

ORCID 

 

🔍 Summary of Suitability:

Dr. Keke Zhi is a well-established researcher whose work spans environmental chemistry, catalysis, and functional materials. As an Associate Professor and a recipient of the prestigious “Tianshan Talents – Young Top Talents” award, he has demonstrated both research excellence and leadership. His research programs are nationally and regionally funded, highlighting recognition from major scientific institutions. Dr. Zhi’s prolific publication record in high-impact journals and his interdisciplinary work in wastewater treatment, CO₂ reduction, and lithium extraction position him as a leading innovator in applied chemical research.

📘 Education & Experience

  • 🏫 B.S. (2009–2013) – Ludong University

  • 🎓 Ph.D. (2013–2018) – University of Chinese Academy of Sciences

  • 👨‍🏫 Associate Professor – China University of Petroleum (Beijing), Karamay Campus

  • 🎯 Master Tutor – Mentoring graduate-level students

  • 🌟 Young Top Talent – Xinjiang Uygur Autonomous Region “Tianshan Talents” Program

Professional Development 🚀📖

Dr. Zhi has actively pursued diverse research programs funded by national and regional agencies 📈. His development includes leading NSFC projects on MOF-based catalysts for pollutant degradation 🔬 and contributing to lithium extraction technology from salt lake brines 🧪. His multidisciplinary collaboration is reflected in co-authored papers across journals like Chemical Engineering Journal and Nanomaterials 📄. Through ongoing research and mentorship 👨‍🏫, Dr. Zhi fosters a vibrant academic environment, continually expanding his expertise in environmental and catalytic chemistry 🌐. He also supports innovation by transforming biomass into functional materials 🌾 and exploring new frontiers in ion-imprinting technology.

Research Focus 🔍🤖

Dr. Zhi’s research centers on functional material synthesis for environmental and catalytic applications ⚗️. He specializes in surface and ion-imprinted materials for targeted extraction and degradation processes 🎯. His work on MOFs and graphene composites enables efficient degradation of pharmaceuticals and pollutants in wastewater 🌊. Additionally, he explores the conversion of biomass into high-value chemicals 🌿 and advances lithium extraction methods vital for clean energy storage 🔋. Bridging chemistry and sustainability, Dr. Zhi’s research supports eco-friendly solutions to modern industrial challenges ♻️, with significant emphasis on green catalysis and selective adsorption technologies 🌱.

Awards and Honors 🏆🎖️

  • 🌟 “Tianshan Talents” Young Top Talent – Xinjiang Uygur Autonomous Region

  • 🧪 Multiple Funded Research Projects – National Natural Science Foundation of China (NSFC) & regional foundations

  • 📈 First Author & Corresponding Author – Published in high-impact journals (Chemical Engineering Journal, Polymers, Nanomaterials, etc.)

  • 📚 Recognized Scholar – For contributions to catalytic and environmental chemistry

Publications & Citations 📚

  • 📘 N-doped graphene loaded with Ru sites as PMS activators for SMX degradationChemical Engineering Journal, 2025 🔬

  • 🔧 Graphical Pinch Analysis for heat exchanger networks retrofit in residuum hydrogenationEnergy, 2024 📊

  • 💧 Progress of Ion Imprinting Technology in Lithium ExtractionPolymers, 2024 🧪

  • 🧼 Elimination of Organic Contaminants using Iron-Based MOFsNanomaterials, 2024 🧲

  • 🌱 Review on CO₂ Utilization and Emission Reduction from Chemical Engineering PerspectiveProcess Safety and Environmental Protection, 2023 🏭

  • 🌿 Selective Adsorption of Quercetin by Sol-Gel Surface Molecularly Imprinted PolymerPolymers, 2023 ⚗️

  • 🌊 Review of Activation Persulfate by Iron-Based Catalysts for Wastewater DegradationApplied Sciences, 2021 🚰

 

Conclusion

Dr. Keke Zhi exemplifies the qualities of a Best Researcher Award recipient through his cutting-edge scientific contributions, strong publication record, and sustained impact on environmental and catalytic chemistry. His ability to address global challenges like pollution, resource extraction, and sustainability through innovative material science makes him a standout candidate. His work not only advances science but also has practical, scalable applications that benefit society.

 

 

Thompson Faraday Ediagbonya | Environmental Chemistry | Excellence in Innovation Award

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Prof. Thompson Faraday Ediagbonya | Environmental Chemistry | Excellence in Innovation Award

Professor at Olusegun Agagu University of Science and Technology in Nigeria.

Dr. Thompson Faraday Ediagbonya 🎓, an Associate Professor of Environmental Chemistry at OAUSTECH, Nigeria 🇳🇬, is a distinguished scholar with a Ph.D. in Environmental Chemistry and over 50 scientific publications 📚. With teaching experience spanning two decades, his expertise lies in pollution studies, risk assessment, and environmental impact analysis 🌍🧪. He has received awards such as Best Lecturer by the Chemical Society of Nigeria 🏆 and secured prestigious grants, including DAAD and Max Planck Institute scholarships 🌐💼. Beyond academia, he actively mentors postgraduate students and contributes to environmental research and policy. He enjoys reading, football, table tennis, and atmospheric music ⚽📖🎶.

Professional Profile

GOOGLE SCHOLAR 

SCOPUS 

🔍 Summary of Suitability:

Dr. Ediagbonya is a visionary scholar whose work bridges environmental science and public health. He has pioneered analytical approaches to assess the risks of environmental pollutants such as PAHs, PCBs, and heavy metals using advanced tools like GC-MS and ICP-OES 🔬. His studies on atmospheric pollutants, water safety, and ecosystem health have contributed to national and international environmental policies 🌍📈.

🎓 Educational Background

  • 🏫 Primary School: Obanosa Primary School, Benin City (1980–1986)

  • 🏫 Secondary School: Ihogbe College, Benin City (1986–1992)

  • 🏫 Secondary School: Step-forward Secondary School, Warri (1992–1993)

  • 🧪 B.Sc. (Ed) Chemistry: University of Benin (1995–1999)

  • 💻 Diploma in Computer Studies: Obafemi Awolowo University Consultancy Services (2000–2001)

  • ⚗️ M.Sc. in Analytical & Environmental Chemistry: University of Benin (2002–2005)

  • 🌍 Ph.D. in Environmental Chemistry: University of Benin (2006–2011)

👨‍🏫 Professional Experience

🏛️ University Level (OAUSTECH)

  • 👨‍🔬 Lecturer II, Industrial Chemistry (2013)

  • 📘 Lecturer I, Industrial Chemistry (2016)

  • 📗 Senior Lecturer, Industrial Chemistry (2019)

  • 🎓 Associate Professor, Chemical Sciences (2022–Present)

  • 🧑‍🎓 Sub Dean, School of Science (2024–Present)

  • 👨‍💼 Acting HOD, Department of Chemical Sciences (2024–Present)

🏫 Teaching (Outside University)

  • 👨‍🏫 Chemistry Teacher, Imaguero Grammar School (1997–1998)

  • 👨‍🏫 NYSC Teacher, Irabeji Grammar School (2000–2001)

  • 👨‍🏫 Royal College, Ovwian (2001–2009)

  • 🧪 Practical Demonstrator, University of Benin (2008–2010)

  • 👨‍🏫 Jenny College, Ekete (2010–2012)

  • 👨‍🏫 Lecturer II, Western Delta University (2012–2013)

🌍 Research & Assessments

  • 🧪 Environmental Impact Assessments (EIA)

  • 💧 Health Impact Assessments (HIA) for SPDC, NNPC & others

  • 🔬 Numerous international and national environmental studies

Professional Development 🚀📖

Dr. Thompson Faraday Ediagbonya 📘 has demonstrated remarkable professional development through decades of academic excellence and environmental research 🌍🧪. Rising from a dedicated Chemistry teacher to an Associate Professor at OAUSTECH 🎓, he has contributed significantly to pollution analysis, environmental risk assessment, and sustainable practices 💧🌿. A recipient of the DAAD Staff Exchange Scholarship 🇩🇪 and international grants, he has attended numerous conferences, presented impactful research 📊, and published over 50 scientific papers 📚. As a mentor and postgraduate supervisor 👨‍🏫, his role in shaping future scientists is commendable. His professional growth reflects dedication, innovation, and global environmental advocacy 🌐🔥.

Research Focus 🔍🤖

Dr. Thompson Faraday Ediagbonya’s research focus centers on Environmental Chemistry and Pollution Studies 🌍🧪. His work explores air and water quality, heavy metals, polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), and greenhouse gases 🌫️💧🌡️. He conducts risk assessments to evaluate environmental and human health impacts 🧬⚠️, particularly in industrial and coastal regions. His studies utilize advanced analytical techniques like GC-MS and ICP-OES 🔬📈. Committed to sustainability, he investigates climate change, rainwater harvesting, and ecosystem protection 🌦️🌱. His research supports cleaner environments and informed policies, contributing to global environmental safety and public health awareness 🧑‍🔬📉🌐.

🏆 Awards & Honors

  • 🥇 Best Lecturer Award – Chemical Society of Nigeria (OAUSTECH), 2021

  • 🏅 Students’ Favourite Lecturer – Chemical Society of Nigeria (OAUSTECH), 2018

  • 🧪 Best Chemistry Teacher – Royal Colleges, Ovwian, Delta State, 2007

  • 🎓 DAAD Staff-Exchange Scholarship – Germany 🇩🇪, 2021

  • 🌍 International Research Grant – Max Planck Institute for Chemistry, Germany 🇩🇪 (2020, €26,676)

  • 📚 TETFund National Research Grants – Nigeria 🇳🇬 (3-time recipient)

Publications & Citations 📚

📘 Occupational exposure to wood dust and respiratory health status of sawmill workers in South-south Nigeria – Tobin EA, Ediagbonya TF et al. | J Pollut Eff Cont | 51 citations | 📅 2016 🌳🫁

💧 Assessment of rain water harvesting systems in a rural community of Edo State, Nigeria – Tobin EA, Ediagbonya TF et al. | Journal of Public Health | 31 citations | 📅 2013 🌦️🏞️

🌫️ Sequential extractions and toxicity potential of trace metals absorbed into airborne particles in an urban atmosphere of Southwestern Nigeria – Olumayede EG, Ediagbonya TF | Scientific World J | 30 citations | 📅 2018 🏙️☠️

💦 Identification and quantification of heavy metals, coliforms and anions in water bodies using enrichment factors – Ediagbonya TF et al. | J Environ Anal Chem | 23 citations | 📅 2015 🚱🧪

🌾 Spatio-temporal distribution of inhalable and respirable particulate matter in rural atmosphere of Nigeria – Ukpebor EE, Ediagbonya TF et al. | IAEES | 22 citations | 📅 2013 🌬️🏡

🧭 Potential risk assessment and spatial distribution of elemental concentrations in sediment – Ediagbonya TF, Balogun OT | Applied Water Science | 17 citations | 📅 2020 🧪🌍

🐟 Comparative analysis of some metallic elements in selected body part of fishes from Igbokoda River – Ediagbonya TF et al. | Results in Chemistry | 17 citations | 📅 2020 🐠⚗️

🧱 Risk assessment and elemental quantification of anthropogenic activities in soil – Ediagbonya TF, Ajayi S | Environ Geochem Health | 15 citations | 📅 2021 🌍🔬

🏙️ Air pollution and respiratory morbidity in an urban area of Nigeria – Ediagbonya TF, Tobin AE | Greener J Environ Manag | 15 citations | 📅 2013 🚗💨

🪵 The level of suspended particulate matter in wood industry (sawmills) in Benin City, Nigeria – Ediagbonya TF et al. | J Environ Chem Ecotoxicol | 13 citations | 📅 2013 🪚🌫️

🌍 Comparative study of TSP, inhalable and respirable particles in Niger Delta – Ediagbonya TF et al. | Greener J Phys Sci | 13 citations | 📅 2012 🏞️💨

🐸 Bioaccumulation of elemental concentrations in sediment and frog (Pyxicephalus edulis) – Ediagbonya TF et al. | Chemistry Africa | 12 citations | 📅 2022 🐸⚛️

⛏️ Effect of quarry activities on biological resources around quarry site in Oyo State – Ediagbonya TF et al. | Environ Geochem Health | 12 citations | 📅 2021 🌿🪨

🌊 Geochemistry of terrigenous sediments in surface water from Ore and Okitipupa – Ediagbonya TF, Ayedun H | Bangladesh J Sci Ind Res | 12 citations | 📅 2018 🧬💧

🧲 Enrichment factor of atmospheric trace metals using reference elements – Ediagbonya TF | Nigerian Journal of Technology | 12 citations | 📅 2016 🔍📈

🌫️ Heavy metal in inhalable and respirable particles in urban atmosphere – Ediagbonya TF et al. | Environ Skeptics and Critics | 12 citations | 📅 2013 🌁🧪

😷 Prevalence of respiratory symptoms due to particulate matter in Niger Delta – Ediagbonya TF et al. | Biol & Environ Sci J Tropics | 11 citations | 📅 2014 🫁🌿

 🔍 Conclusion:

Dr. Ediagbonya’s commitment to scientific innovation, public health, and sustainability makes him an exceptional candidate for the Excellence in Innovation Award. His work not only advances academic knowledge but also delivers practical solutions to pressing global environmental challenges 🌎🚀

 

 

Md. Saikat Hossen | Environmental Sciences | Best Researcher Award

Published on by Chemical Scientist

Mr. Md. Saikat Hossen | Environmental Sciences | Best Researcher Award

Student at University of Barishal in Bangladesh.

🌱 Md. Saikat Hossen is a passionate 3rd-year BSc student in Soil and Environmental Sciences at the University of Barishal, Bangladesh 🇧🇩. Skilled in SPSS, R, GIS, and Canva, he excels in data analysis 📊, research 📖, and graphic design 🎨. As a research intern at the Plasma Cell Research Center 🔬, he explores immune responses to environmental pollutants. A dedicated volunteer and event organizer 🎤, he has earned multiple certifications and won 1st place in a poster design competition 🏆. With a strong commitment to sustainability and problem-solving, he strives to make a meaningful impact in environmental science 🌍.

Professional Profile

Suitability for the Best  Researcher Award 🏆

Md. Saikat Hossen is a dedicated environmental science researcher 🌱🔬 with strong analytical expertise in data analysis, GIS, and computational modeling 📊. His research on pollution’s impact on health 🏥 and chemical-protein interactions 🧪 showcases his commitment to solving critical environmental challenges.

Education 🎓

  • 📖 BSc in Soil and Environmental Sciences (Ongoing) – University of Barishal, Bangladesh 🇧🇩
    • Focus on research, soil health, agriculture, and pollution control 🌱
  • 🏫 HSC in Science – Kafil Uddin Degree College (2021)
    • GPA: 4.50 🎯
  • 🏫 SSC in Science – Hazirpara Hamidia High School (2019)
    • GPA: 4.06 📚

💼 Experience:

    • 🔬 Research Intern (2024–2025) – Plasma Cell Research Center 🏥
      • Studying immune responses to environmental pollutants 🧪
      • Working on computational and experimental methods for pollution impact 📊
      • Upcoming publication on chemical-protein interactions in air pollution 📝
    • 💻 IT and Research Enthusiast (2023–2024) – University of Barishal 🏛️
      • Expertise in SPSS, STATA, and data analysis 📈
      • Organized events like Quizzi-cal 2.0 and Disaster Hackathon 2.0 🏆
      • Served as IT Secretary at BURHES for volunteer initiatives 🤝

Professional Development 🚀📖

Md. Saikat Hossen is continuously enhancing his expertise in data analysis 📊, environmental research 🌱, and graphic design 🎨. As a research intern at the Plasma Cell Research Center 🔬, he applies computational and experimental methods to study pollution’s impact on health 🏥. His proficiency in SPSS, R, GIS, and STATA strengthens his analytical skills 📈. He actively participates in workshops, publishes research 📖, and has earned multiple certifications 🏅. His leadership as IT Secretary at BURHES and involvement in event management 🎤 showcase his dedication to innovation, problem-solving, and sustainability 🌍.

Research Focus 🔍🤖

Md. Saikat Hossen’s research revolves around environmental science 🌱, pollution control 🏭, and computational analysis 📊. As a research intern at the Plasma Cell Research Center 🏥, he studies the impact of environmental pollutants on human health 🧬. His work integrates data analysis (SPSS, R, STATA) 📈 and GIS mapping 🗺️ to model pollution effects. He explores chemical-protein interactions 🧪 to predict air pollution’s health consequences 🌍. Passionate about sustainability and innovation ⚡, he aims to develop scientific solutions for environmental and public health challenges 🤝.

Awards & Honors 🏆

  • 🥇 1st Place in Poster Design Competition (2023) – Recognized for creativity and research presentation skills 🎨📊
  • 🎓 Certified in GIS and Research (2024) – Demonstrated expertise in geographic information systems and analytical research 🗺️🔬
  • 🏅 Multiple Voluntary Certificates (2023–2024) – Acknowledged for active participation in academic and community initiatives 🤝🎤
  • 📜 Upcoming Research Publication (2025) – Contributed to scientific advancements with a study on chemical-protein interactions and air pollution effects 🧪🌍

 

Publication Top Notes:

📄 Publication: “Modeling the Interactions Between Chemicals and Proteins to Predict the Health Consequences of Air Pollution” (2025) 🧪🌍 | Cited by: [Not available yet] 📑

🎯 Conclusion:

Given his groundbreaking research, technical proficiency, and academic achievements, Md. Saikat Hossen is a strong candidate for the Best Researcher Award 🏆. His contributions to environmental science and public health research make him highly deserving of this honor 🌟.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Md. Ramjan Sheikh | Environmental science | Best Researcher Award

Published on by Chemical Scientist

Mr. Md. Ramjan Sheikh | Environmental science | Best Researcher Award

Research assistant at  Gono Bishwabidyalay in Bangladesh.

Md. Ramjan Sheikh 🎓 is a dedicated biochemist specializing in molecular biology 🧬. He holds an M.S. in Biochemistry & Molecular Biology from Hajee Mohammad Danesh Science and Technology University 🏛️ and currently serves as a consultant biochemist at Super Medical Hospital, Savar, Dhaka 🏥. With expertise in bacterial genomics, RT-PCR, and bioinformatics 🖥️, he is also the founder of the Plasma Cell Research Center 🔬. Passionate about research, he has contributed to multiple scientific publications 📚 and actively engages in training and workshops. His work focuses on antimicrobial resistance, plant biochemistry, and computational biology for drug discovery 💊.

 

Professional Profile

Suitability for the Best Researcher Award 🏆

Md. Ramjan Sheikh is a highly accomplished biochemist and molecular biologist 🧬 with a strong research background in bacterial genomics, antimicrobial resistance, plant biochemistry, and computational drug design 💊. His extensive hands-on experience in RT-PCR, enzyme assays, whole-genome sequencing, and bioinformatics 🖥️ has led to significant scientific contributions. With multiple peer-reviewed publications 📚, active involvement in research education 🎓, and leadership as the founder of the Plasma Cell Research Center 🔬, he demonstrates an outstanding commitment to advancing biochemical research.

Education 🎓

  • M.S. in Biochemistry & Molecular Biology (2023) 🧬
    • Hajee Mohammad Danesh Science and Technology University, Bangladesh 🏛️
    • CGPA: 3.83/4.00
  • B.Sc. (Hons) in Biochemistry & Molecular Biology (2020) 🧪
    • Gono Bishwabidyalay, Bangladesh 🏫
    • CGPA: 3.76/4.00
  • Higher Secondary Certificate (HSC) in Science (2014) 🏆
    • Gov. Yasin College 🏢
    • GPA: 4.30/5.00
  • Secondary School Certificate (SSC) in Science (2012) 🏅
    • Kola Sadar Uddin High School 📖
    • GPA: 4.69/5.00

Experience 👨‍🔬

  • Consultant Biochemist (Present) 🏥
    • Super Medical Hospital, Savar, Dhaka
  • Founder & Instructor 🔬
    • Plasma Cell Research Center
  • Laboratory Officer (Feb 2021 – Dec 2021) 🏢
    • Gonosasthaya RNA Molecular Diagnostic and Research Center, Dhaka
  • Research & Training Experience 📚
    • Conducted RT-PCR tests for Covid-19, Hepatitis B & C 🦠
    • Hands-on expertise in molecular biology techniques (PCR, DNA extraction, ELISA) 🧫
    • Completed various bioinformatics and programming trainings (Python, R, SPSS) 💻
    • Engaged in bacterial genomics and antimicrobial research 🦠🔬

Professional Development 🚀📖

Md. Ramjan Sheikh 🧬 is committed to continuous professional growth through research, training, and hands-on experience. He has undergone specialized training in RT-PCR 🦠, bioinformatics 🖥️, and molecular characterization 🔬. His expertise spans bacterial genomics, computational drug design 💊, and enzyme assays. He has completed multiple workshops on Python and R programming for biological research 📊. As the founder of the Plasma Cell Research Center 🏫, he mentors young researchers in molecular biology. His contributions to scientific publications 📚 and active participation in conferences make him a dynamic professional dedicated to advancing biochemistry and molecular biology.

Research Focus 🔍🤖

Md. Ramjan Sheikh’s research focuses on biochemistry and molecular biology 🧬, with expertise in bacterial genomics 🦠, antimicrobial resistance 🏥, and plant biochemistry 🌿. He explores enzyme assays 🔬, proteomics 🧫, and genetic diversity in crops 🌾. His studies on computational drug design 💊 integrate bioinformatics 🖥️, artificial intelligence 🤖, and machine learning. He also investigates RNA-based diagnostics 🧪 and molecular mechanisms of diseases 🏥. Passionate about innovation, he contributes to scientific advancements through experimental research, genome sequencing, and biomarker discovery 🔍. His work supports drug development, agriculture, and disease prevention worldwide.

Awards & Honors 🏆🎖️

  • Founder & Instructor of Plasma Cell Research Center 🔬🏅
    • Recognized for contributions to research education and mentorship.
  • Best Research Contributor in Biochemistry & Molecular Biology 🧬🏆
    • Honored for impactful scientific publications and research advancements.
  • Recipient of Research Training Certifications 📜🥇
    • Successfully completed specialized training in RT-PCR, bioinformatics, and computational drug design.
  • Outstanding Performance in Graduate Studies 🎓🎖️
    • Achieved high academic excellence (CGPA: 3.83/4.00) in M.S. in Biochemistry & Molecular Biology.
  • Scientific Paper Publications & Recognition 📚🏅
    • Published multiple research articles in reputed international journals.

 

Publication Top Notes:

📜 Determination of antimicrobial activity of medicinal plant Cassia obtusifolia L.(Chakunda) leaf extract on selected pathogenic microbes – MH Rony, MAS Imran, R Islam, F Ahmed, BB Zaker, P Akter, MG Mosaib, … | 🏆 Cited by: 3 | 📅 Year: 2019

🧬 Biochemical analysis of Leonurus sibiricus and prediction of its bioactive compound-protein interactions in Homo sapiens – AA Osman, AAA Omar, MA Khatun, MR Sheikh, MS Alam, MMU Zaman, … | 🏆 Cited by: 2 | 📅 Year: 2024

🚬 Proteomic Insights Into The Health Impacts of Cigarette Smoking: Analyzing Nicotine, PAHs, Aromatic Amines, And Aldehydes – ML Miah, MF Hossain, ME Uddin, MH Rahman, H Barua, AA Osman, … | 🏆 Cited by: 1 | 📅 Year: 2025

🌫️ Modeling the Interactions Between Chemicals and Proteins to Predict the Health Consequences of Air Pollution – MR Sheikh, HH Mahmud, MS Hossen, D Saha, ME Uddin, MF Hossain, … | 📅 Year: 2025

🦠 Identification and Characterization of a Protease Producing Bacillus cereus Strain From Tannery Waste for Efficient Dehairing of Goat Skin – ME Uddin, MR Sheikh, M Asaduzzaman, S Ahmed, SK Kundu, AAI Sina | 📅 Year: 2025

🌱 Morphophysiological characterization of buckwheat landraces toward the development of germplasm in Bangladesh – MR Sheikh, M Shafiuzzaman, A Khan, MTS Turin, MT Abedin, MA Sayed | 📅 Year: 2024

🧬 Genomic Insights into the Cultivated Common Buckwheat: A Comprehensive Review on Genetic Diversity, Population Structure, and Marker Technologies – MR Sheikh, MT Abedin, ME Uddin, AS Toma, L Lisa, D Saha, MA Sayed | 📅 Year: 2025.

📌 Conclusion:

Given his pioneering research, high-impact publications, leadership in scientific mentorship, and significant advancements in molecular biology and computational research, Md. Ramjan Sheikh is an excellent candidate for the Best Researcher Award 🏆. His work not only enhances scientific knowledge but also contributes to healthcare, biotechnology, and drug discovery. Recognizing his contributions would further inspire innovation and excellence in biochemical and molecular research.