Aaroon Das | Material | Best Researcher Award

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Mr. Aaroon Das | Material | Best Researcher Award

PhD Student, Capital University of Science & Technology, Pakistan

Engr. Aaroon Joshua Das is a distinguished PhD Scholar in Structural Engineering at Capital University of Science & Technology (CUST), Islamabad, and currently serves as the Project Director at the Ministry of Federal Education & Professional Training, Islamabad, Pakistan. With a strong engineering background, he specializes in project management, contract administration, and strategic planning, ensuring the successful execution of mega projects. Aaroon is deeply passionate about sustainability and works towards integrating it into construction by researching the recycling of plastic waste. His work aims to provide eco-friendly, cost-effective solutions for the construction industry. Through his innovative research, Aaroon seeks to tackle significant environmental challenges, contributing to a more sustainable and efficient future in infrastructure development.

Profile

Orcid

Education

Aaroon Joshua Das holds a Master’s degree in Structural Engineering and is currently pursuing a PhD at Capital University of Science & Technology (CUST), Islamabad. His academic journey has focused on advanced civil engineering concepts, particularly related to sustainable construction materials and practices. His research at CUST explores the use of recycled plastic in the construction industry, aiming to reduce environmental pollution and cost. Aaroon’s educational background also includes extensive training in project management and contract administration, equipping him with the skills to lead large-scale infrastructure projects. His ongoing PhD research is dedicated to pioneering methods for utilizing waste plastic as a primary construction material, contributing to both sustainability and cost-effectiveness in the construction industry.

Experience

Engr. Aaroon Joshua Das brings a wealth of experience in both engineering and project management. As Project Director at the Ministry of Federal Education & Professional Training, Islamabad, he oversees the execution of large-scale government projects, ensuring they are completed on time, within budget, and according to quality standards. With a keen interest in sustainability, Aaroon’s role bridges engineering practice and environmental responsibility. His experience includes contract administration, strategic planning, and risk management for infrastructure projects. Additionally, Aaroon’s academic expertise as a PhD scholar at CUST enhances his project management approach, providing him with in-depth knowledge of innovative, sustainable building materials. Through his ongoing research on recycling plastic waste for construction, he contributes to both his professional work and academic pursuits, fostering the development of green technologies in the construction sector.

Research Focus 

Engr. Aaroon Joshua Das’s research is focused on innovative and sustainable construction materials, particularly the use of recycled plastic in building construction. Recognizing the growing environmental concerns surrounding plastic waste, his work aims to create eco-friendly solutions by utilizing plastic as a primary construction material, rather than as a composite. This approach has the potential to significantly reduce construction costs while also addressing the global plastic waste crisis. Aaroon’s research is pioneering in the field, as it explores the potential of plastic to replace traditional construction materials, making buildings more sustainable. His work combines material engineering and recycling processes to assess the feasibility of using plastic waste in infrastructure development. Aaroon is committed to furthering this area of research, which has far-reaching implications for the construction industry’s environmental footprint, potentially revolutionizing how materials are sourced and used in construction globally.

Publication Top Notes

  1. Prospective Use and Assessment of Recycled Plastic in Construction Industry 🏗️♻️

 

 

 

Young Min JO | Environmental engineering | Environmental Engineering Award

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Prof . Young Min JO | Environmental engineering | Environmental Engineering Award

Professor, Kyung Hee University, South Korea

Dr. Young Min Jo is a Professor at the Department of Environmental Engineering at Kyung Hee University in South Korea. With a career spanning over two decades, he has made significant contributions to environmental science, particularly in air pollution control and indoor air quality. His expertise includes dust filtration, CO2 capture, odor and VOC control, and energy material synthesis. Dr. Jo holds a Ph.D. in Chemical Engineering from the University of New South Wales, Australia, and has worked as a researcher and professor at various renowned institutions globally. He is also an active participant in environmental policy discussions, serving in various leadership roles in professional societies such as the Korean Society of Odor Environment. Dr. Jo’s commitment to research and teaching has earned him numerous accolades and recognition in the field of environmental engineering.

Profile:

Orcid

Scopus

Education:

Dr. Young Min Jo completed his academic journey with a focus on Chemical Engineering. He earned his Ph.D. in Chemical Engineering from the University of New South Wales (UNSW), Australia, in 1997. Prior to this, he obtained both his M.S. (1986) and B.S. (1984) degrees from Korea University, where he specialized in Chemical Engineering. His strong academic background laid the foundation for his future career in environmental science and engineering, where he has contributed to research, education, and policy. Throughout his education, Dr. Jo was exposed to a diverse range of topics that span chemical engineering and environmental sustainability, with a particular emphasis on air pollution control and energy systems. His education at leading institutions has provided him with the theoretical and practical knowledge necessary to address pressing environmental challenges.

Experience:

Dr. Young Min Jo has extensive experience in both academia and research. He has been a Professor at Kyung Hee University, South Korea, since 1998, shaping the next generation of environmental engineers. His academic journey also includes prestigious international roles, such as a Visiting Fellow at the Toyama National Institute of Technology (2014-2015) and a Visiting Researcher at the University of Missouri at Rolla (2005-2006). Dr. Jo’s early career includes research positions at the Environmental Research Center of National University of Singapore (1997-1998) and the Center for Particle & Catalysis at UNSW (1996). He also worked as a researcher at Daewoo Electronics Ltd., Korea (1986-1991), contributing to industrial applications. Throughout his career, Dr. Jo has collaborated on various international projects and research initiatives, earning recognition for his expertise in environmental pollution control, air quality, and sustainable energy solutions.

Awards and Honors:

Dr. Young Min Jo has earned several accolades for his contributions to environmental engineering. As Vice President of the Korean Society of Odor Environment (2022-present), he has led initiatives to address odor-related environmental concerns. He served as the Chairman of i-CIPEC (2019-2020), further solidifying his leadership in the environmental field. Dr. Jo has also been a Director of the Center for Environmental Studies (2018-2021) and the Environmental Education Center of Gyeonggi-do (2018-2019), demonstrating his commitment to environmental education and public awareness. In addition, he holds a Senior Consultant position at the National Institute of Environment Research (2017-present) and serves as an Advisory Member of the Korea Air Cleaning Association. These roles reflect his ongoing influence in shaping environmental policy and research in South Korea, earning him recognition for his expertise in air quality and pollution control.

Research Focus:

Dr. Young Min Jo focuses on environmental challenges, with a particular emphasis on air pollution control, indoor air quality monitoring, and energy material synthesis. His research encompasses a variety of topics, including dust filtration, CO2 capture, and odor & VOC control, which are crucial for mitigating pollution in urban environments. He also investigates the health implications of particulate matter and its effects on indoor environments, including classroom air quality. Another key area of his research is the synthesis of sustainable energy materials that can contribute to cleaner, more efficient energy solutions. Dr. Jo’s work on activated carbon materials, particularly bamboo-based activated carbon for CO2 adsorption, highlights his efforts to develop sustainable solutions for indoor air quality. His interdisciplinary approach integrates environmental engineering, materials science, and health sciences, offering valuable insights into improving air quality and sustainability in both indoor and outdoor environments.

Publication Titles :

  1. Correlation between carbonaceous materials and fine particulate matters in urban school classrooms 📚💨
  2. Effects of surrounding environment and student activity on the concentration of particulate matter in elementary school classrooms in South Korea 🏫🌫️
  3. Synthesis of Hydroxylammonium Nitrate and Its Decomposition over Metal Oxide/Honeycomb Catalysts ⚗️💥
  4. Fabrication of Bamboo-Based Activated Carbon for Low-Level CO2 Adsorption toward Sustainable Indoor Air 🌱🌀
  5. Preparation and Characterization of Bamboo-based Activated Carbon for Low-level CO2 Adsorption 🍃🧪
  6. Subchronic pulmonary toxicity of ambient particles containing cement production–related elements 💨⚠️
  7. Removal of Ammonia, Hydrogen Sulfide, and Methyl Mercaptan as Livestock Odor Using a Low-energy (0.2 MeV) Electron Beam Accelerator 🐄💨
  8. Air Quality Index through Inverse Evaluation of Hazard Quotient for Public Indoor Facilities-schools, child daycare centers and elderly nursing homes 🏢🏫
  9. Subway station dust-induced pulmonary inflammation may be due to the dysfunction of alveolar macrophages: Possible contribution of bound elements 🚇💨
  10. Ventilation strategy for simultaneous management of indoor particulate matter and airborne transmission risks – A case study for urban schools in South Korea 🏫🌀

Kai Zhang | Resource Recovery | Best Researcher Award

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Prof.Kai Zhang | Resource Recovery | Best Researcher Award

Professor at Inner Mongolia University of Science & Technology, China 

Professor Kai Zhang is a distinguished academic at Inner Mongolia University of Science & Technology in China, specializing in solid waste management and resource recovery. With a strong background in chemical engineering, he has dedicated his career to developing innovative methods for the extraction and utilization of valuable materials from mining byproducts. Professor Zhang’s research has led to significant advancements in the fields of iron and niobium extraction, catalytic technology, and environmental sustainability. He has published over 40 research papers and holds five national invention patents, reflecting his commitment to scientific excellence and practical solutions. His leadership in various funded research projects showcases his influence in advancing resource recovery initiatives.

Profile:

ORCID Profile

Strengths for the Award:

  1. Extensive Research Experience: Professor Kai Zhang has led numerous significant research projects, notably focusing on innovative solutions in solid waste management and the utilization of resources from the Bayan Obo mining processes. His expertise in extracting valuable materials like iron and niobium showcases his commitment to sustainable practices.
  2. Innovative Contributions: The development of novel technologies, such as magnetic microcrystals from steel slag and SCR catalysts from cerium-rich minerals, demonstrates his ability to address pressing environmental challenges through innovative research.
  3. Impressive Publication Record: With over 40 publications, including more than 10 in SCI-indexed journals, Professor Zhang has made substantial contributions to the field, indicating both productivity and recognition by peers.
  4. Patent Portfolio: Holding five national invention patents highlights his capacity to translate research into practical applications, furthering advancements in chemical engineering and environmental science.
  5. Successful Funding Acquisition: Leading multiple projects funded by significant bodies, such as the National Natural Science Foundation of China, illustrates his capability in securing competitive grants, ensuring the continuation and expansion of his research initiatives

Areas for Improvement:

  1. Interdisciplinary Collaboration: While Professor Zhang has extensive expertise in his domain, fostering more interdisciplinary partnerships could enhance the scope and impact of his research. Collaborations with fields such as biotechnology or environmental policy could yield comprehensive solutions to complex issues.
  2. Increased International Engagement: Engaging in more international collaborations or conferences could elevate the global visibility of his work. Building networks beyond China can facilitate knowledge exchange and introduce diverse perspectives.
  3. Public Communication of Research: Enhancing the dissemination of research findings to broader audiences, including policymakers and the public, can improve the impact of his work on societal issues related to waste management and environmental sustainability.

Education:

Professor Kai Zhang holds a Doctorate in Chemical Engineering from a renowned institution, where he focused on innovative methods for resource recovery from industrial waste. His educational journey began with a Bachelor’s degree in Chemical Engineering, followed by a Master’s degree that emphasized environmental technologies. During his doctoral studies, he developed a keen interest in solid waste management, particularly in the mining sector. This academic foundation laid the groundwork for his future research endeavors, where he combined theoretical knowledge with practical applications. Professor Zhang’s dedication to lifelong learning is evident in his participation in various workshops and conferences, keeping him updated with the latest advancements in his field. His educational background, combined with extensive research experience, positions him as a leader in resource recovery and environmental sustainability.

Experience:

With over a decade of teaching and research experience, Professor Kai Zhang has established himself as a prominent figure in the field of resource recovery. His tenure at Inner Mongolia University of Science & Technology includes roles as a principal investigator on numerous funded research projects, focusing on innovative extraction techniques and environmental catalytic materials. He has collaborated with various national and local research institutions, successfully securing competitive grants from the National Natural Science Foundation of China and other funding bodies. His experience also encompasses consulting roles in industry projects aimed at optimizing waste management practices. Through these experiences, Professor Zhang has not only contributed to scientific knowledge but has also facilitated technology transfer to practical applications, benefiting both academia and industry. His commitment to mentorship has inspired many students and young researchers, furthering the impact of his work in sustainable development.

Research Focus:

Professor Kai Zhang’s research primarily focuses on resource recovery from solid waste, particularly in the context of mining operations in the Bayan Obo region. His work addresses critical issues related to the sustainable extraction of valuable materials, such as iron and niobium, from low-grade ores and industrial byproducts. By developing innovative methodologies, including the creation of catalytic technologies and magnetic microcrystals from steel slag, he aims to optimize processes for environmental sustainability. Additionally, his research explores the performance of SCR catalysts derived from cerium-rich minerals, contributing to advancements in denitrification technologies. Professor Zhang’s interdisciplinary approach combines chemical engineering principles with environmental science, ensuring that his research not only enhances resource efficiency but also addresses ecological impacts. Through his projects, he strives to create practical solutions that support both economic viability and environmental stewardship in the mining and waste management sectors.

Publication Top Notes:

  • Research on the microscale effects of fuel pellets carrying chemical pesticide distillation residues 🌾
    Chemical Engineering Science | 2025-01 | DOI: 10.1016/j.ces.2024.120755

Conclusion:

Professor Kai Zhang is a highly qualified candidate for the Best Researcher Award due to his robust research portfolio, innovative approaches to environmental challenges, and significant contributions to chemical engineering. His ability to lead impactful projects and generate valuable patents underlines his dedication to advancing the field. By addressing areas for improvement, such as interdisciplinary collaboration and public engagement, he could further amplify the relevance and reach of his work. His nomination is strongly endorsed.

Jasmin Cooper | Environmental Sustainability | Best Researcher Award

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Dr Jasmin Cooper | Environmental Sustainability | Best Researcher Award

Dr Jasmin Cooper, Imperial College London, United Kingdom

Dr. Jasmin Cooper, PhD, AMIChemE, is a leading Research Associate at Imperial College London, specializing in emissions inventory analysis and the life cycle sustainability of energy systems. She earned her PhD in Environment and Sustainable Technology from The University of Manchester, where her research assessed the sustainability of shale gas in the UK. Dr. Cooper’s work primarily focuses on evaluating the environmental, economic, and social sustainability of energy systems, including natural gas, hydrogen, and biomethane. She has consulted on multiple projects, offering expertise in emissions quantification, methane leakage analysis, and the techno-economic assessment of low-carbon technologies. With numerous peer-reviewed publications and involvement in high-profile consultancy projects, Dr. Cooper is a prominent figure in the field of sustainable energy systems.

Publication Profile

Google Scholar

Strengths for the Award

Dr. Jasmin Cooper stands out as an ideal candidate for the Best Researcher Award due to her extensive contributions to the fields of emissions inventory analysis, life cycle sustainability of energy systems, and decarbonization. Her research on methane emissions, sustainability assessments of shale gas, and the environmental impact of various energy technologies has not only resulted in high-impact publications but has also provided valuable insights into sustainable energy pathways for the UK. Dr. Cooper’s ability to secure funding, her role as a consultant on multiple high-profile projects, and her interdisciplinary approach make her a strong contender.

Her work, cited by numerous researchers, emphasizes the breadth of her impact. Key projects, such as life cycle assessments for UK industrial decarbonization, further showcase her leadership in advancing sustainable energy solutions. The breadth of her research covers critical areas like hydrogen emissions, negative emission technologies, and methane detection, proving her expertise in reducing environmental impacts.

Areas for Improvement

While Dr. Cooper’s contributions are exceptional, a potential area for growth could be increasing engagement in cross-disciplinary collaborative projects. By expanding the application of her findings in international contexts or other energy sectors, her research’s influence could reach a broader audience. Additionally, greater involvement in public dissemination could enhance the societal understanding and implementation of her findings on sustainability and decarbonization.

Education

Dr. Jasmin Cooper received her PhD in Environment and Sustainable Technology from The University of Manchester (2013–2017), where her research focused on the life cycle sustainability assessment of shale gas in the UK. Her work, funded by the EPSRC and The University of Manchester, examined the environmental, economic, and social implications of shale gas extraction and electricity generation in the UK, comparing its sustainability with other electricity options. Her thesis, titled Life Cycle Sustainability Assessment of Shale Gas in the UK, was supervised by Professor Adisa Azapagic and Dr. Laurence Stamford. Prior to her PhD, Dr. Cooper completed a First Class (Honours) MEng in Chemical Engineering with Environmental Technology (2009–2013) at The University of Manchester. Her undergraduate dissertation explored the swelling behavior of porous polymer adsorbents used for CO₂ capture, further solidifying her expertise in environmental technology and sustainable energy solutions.

Experience

Dr. Jasmin Cooper is currently a Research Associate at the Department of Chemical Engineering, Imperial College London, where she has worked since 2018. Her research focuses on decarbonizing energy systems by analyzing emissions from natural gas, biomethane, hydrogen, and negative emission technologies. Dr. Cooper conducts emission data analysis and life cycle modelling, and she leads projects on the quantification of methane emissions from natural gas supply chains. Her expertise extends to supply chain sustainability, where she assesses the transfer of greenhouse gas emissions across value chains and validates Scope 3 emissions quantification. Dr. Cooper has also worked as a consultant on various high-profile projects, such as methane leakage analysis for Shell and technoeconomic assessments of low-carbon marine fuels for the Royal Academy of Engineering. She has served as an expert witness and third-party reviewer for several consultancy projects and reports, demonstrating her broad expertise in environmental sustainability.

Research Focus

Dr. Jasmin Cooper’s research focuses on the life cycle sustainability of energy systems, with a particular emphasis on emissions analysis and environmental impact assessment. Her work covers natural gas, biomethane, hydrogen, and negative emission technologies, investigating how these energy sources can be used to decarbonize global energy systems. She specializes in the quantification of methane and other short-lived climate pollutants, as well as the technologies used to detect and measure these emissions. Dr. Cooper also explores the sustainability of energy supply chains, assessing how greenhouse gas emissions transfer across value chains and validating Scope 3 emissions data. In addition to this, her research includes the environmental, economic, and social sustainability assessment of shale gas, providing critical insights into its role in energy markets. Overall, her research contributes to understanding how future energy systems can meet global climate goals while minimizing environmental impacts.

Publications Top Notes

  • Shale gas: A review of the economic, environmental, and social sustainability 🛢️🌍💼 – J Cooper, L Stamford, A Azapagic (Energy Technology, 2016)
  • Hydrogen emissions from the hydrogen value chain-emissions profile and impact to global warming 💨⚗️🌍 – J Cooper, L Dubey, S Bakkaloglu, A Hawkes (Science of The Total Environment, 2022)
  • Economic viability of UK shale gas and potential impacts on the energy market up to 2030 💰💡🇬🇧 – J Cooper, L Stamford, A Azapagic (Applied Energy, 2018)
  • Methane emissions along biomethane and biogas supply chains are underestimated ♻️💨🌾 – S Bakkaloglu, J Cooper, A Hawkes (One Earth, 2022)
  • Environmental impacts of shale gas in the UK: Current situation and future scenarios 🛢️🇬🇧🔍 – J Cooper, L Stamford, A Azapagic (Energy Technology, 2014)
  • Natural gas fuel and greenhouse gas emissions in trucks and ships 🚛⛴️🌍 – J Speirs, P Balcombe, J Cooper (Progress in Energy, 2020)
  • The quantification of methane emissions and assessment of emissions data for natural gas supply chains 📊🌿🛢️ – J Cooper, P Balcombe, A Hawkes (Journal of Cleaner Production, 2021)
  • Social sustainability assessment of shale gas in the UK 💼👨‍👩‍👦🇬🇧 – J Cooper, L Stamford, A Azapagic (Sustainable Production and Consumption, 2018)

Conclusion

Dr. Jasmin Cooper’s research achievements, particularly in the sustainable energy sector, underscore her suitability for the Best Researcher Award. Her work addresses critical global challenges in reducing emissions and advancing renewable energy, demonstrating both academic rigor and practical impact. This combination of scholarly influence and societal relevance makes her an exemplary candidate for this prestigious award.

Timothy Amangdam Anemana | Environmental Chemistry | Best Researcher Award

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Dr Timothy Amangdam Anemana | Environmental Chemistry | Best Researcher Award

Dr Timothy Amangdam Anemana, Council for Scientific and Industrial Research, Soil Research Institute, Ghana

Dr. Timothy Amangdam Anemana is an accomplished Environmental Chemist with a deep passion for soil and water remediation. Holding a Ph.D. in Environmental Science from Eötvös Loránd University, Hungary, he specializes in reducing arsenate and inorganic chromium mobility in soils. With a strong academic foundation and extensive experience in research and environmental consulting, Dr. Anemana has contributed significantly to the fields of biochar production, environmental risk assessment, and soil nutrient mapping. Currently serving as a Research Scientist at the CSIR-Soil Research Institute in Ghana, he leads projects aimed at developing sustainable agricultural practices and environmental conservation methods. Dr. Anemana is known for his dedication to advancing environmental science through innovative research, technical expertise, and community engagement.

Publication Profile

Google Scholar

Strengths for the Award

  • Extensive Research Background: Dr. Anemana holds a Ph.D. in Environmental Science, with a focus on Environmental Chemistry. His research spans critical areas such as soil remediation, biochar production, and environmental impact assessments. This demonstrates a solid foundation in both theoretical and applied environmental research.
  • Diverse Employment Experience: His roles as a Research Scientist, Environmental Chemist, and Ph.D. Research Fellow have equipped him with a broad skill set, including laboratory management, fieldwork, and the application of modern analytical techniques (e.g., ICP-MS, FTIR, LC-MS). His experience with the CSIR-Soil Research Institute and the Environmental Protection Agency in Ghana underlines his practical contributions to both academia and industry.
  • Publications and Academic Contributions: Dr. Anemana has published research in reputable journals, showcasing his ability to contribute original research to the scientific community. His work on biochar and soil nutrient mapping highlights his expertise in sustainable agricultural practices.
  • Mentorship and Teaching: His role as a lecturer and supervisor at the CSIR College of Science and Technology demonstrates his commitment to education and mentorship, further contributing to his suitability for the award.

Areas for Improvement

  • Broader Impact of Research: While Dr. Anemana’s research is highly specialized, expanding the application and impact of his findings to address global environmental challenges could enhance his profile. A stronger emphasis on how his work influences policy, industry standards, or large-scale environmental solutions could be beneficial.
  • Increased Publication and Citation: Although he has published several papers, increasing the volume of high-impact publications and ensuring they are widely cited would strengthen his candidacy. Collaborations with international researchers could also broaden the scope and impact of his research.
  • Leadership in Large-Scale Projects: Taking on leadership roles in larger, multidisciplinary research projects could further demonstrate his ability to lead and innovate in the environmental sciences.

Education 

Dr. Timothy Amangdam Anemana has a diverse and rigorous academic background that laid the foundation for his expertise in Environmental Chemistry. He earned his Ph.D. in Environmental Science (with a major in Environmental Chemistry) from Eötvös Loránd University, Budapest, Hungary, in 2020, where he conducted groundbreaking research on reducing arsenate and inorganic trivalent chromium mobility in soils. Prior to this, he obtained an MSc. in Chemistry (Environmental Chemistry major) from Patrice Lumumba Peoples’ Friendship University of Russia in 2013, focusing on the complex formation of azo derivatives with metal salts. He also holds a Diploma in Education from the University of Education, Winneba-Kumasi, and an Advanced Certificate in Energy Policy and Planning from Kwame Nkrumah University of Science and Technology. His academic journey began with a BSc. in Agriculture Technology from the University for Development Studies, Tamale, Ghana, where he investigated water and land use quality assessment.

Experience 

Dr. Timothy Amangdam Anemana has a rich professional history in environmental research, consulting, and education. He currently serves as a Research Scientist at the CSIR-Soil Research Institute in Ghana, where he is involved in cutting-edge projects on soil nutrient mapping, biochar production, and environmental risk assessments. His previous role as an Environmental Chemist at the Environmental Protection Agency, Ghana, honed his skills in environmental impact assessments, biochar application for remediation, and air quality monitoring. Dr. Anemana’s experience also includes a Ph.D. Research Fellowship at Eötvös Loránd University, Hungary, where he contributed to advanced research on contaminated soils and innovative remediation techniques. Earlier in his career, he worked as a Postgraduate Research Assistant at Patrice Lumumba Peoples’ Friendship University of Russia, focusing on laboratory instruction and environmental research. His extensive experience underscores his expertise in environmental chemistry and sustainable agricultural practices.

Awards and Honors 

Dr. Timothy Amangdam Anemana has been recognized for his outstanding contributions to environmental science and research. He graduated with a Ph.D. in Environmental Science from Eötvös Loránd University, Hungary, with the highest honor, summa cum laude. His work on the reduction of arsenate and inorganic trivalent chromium mobility in soils has been widely acclaimed. Dr. Anemana has also been acknowledged for his innovative research on biochar production and its application in soil and water remediation. Throughout his academic and professional journey, he has received numerous accolades for his dedication to environmental conservation and sustainable agricultural practices. His research publications have been featured in reputable international journals, and he continues to be a leading voice in environmental chemistry, contributing to the advancement of knowledge and practical solutions in this critical field.

Research Focus

Dr. Timothy Amangdam Anemana’s research is centered on the intersection of environmental chemistry and sustainable agricultural practices. His primary focus is on the development of innovative solutions for soil and water remediation, particularly the reduction of arsenate and inorganic trivalent chromium mobility in soils. He is deeply involved in the production and application of biochar and activated charcoal from biowaste materials, aiming to enhance soil fertility and mitigate environmental pollution. Dr. Anemana’s current projects at the CSIR-Soil Research Institute in Ghana include the development of an alternative triple super phosphate fertilizer from oyster shells, which are abundant in Ghana. His research also extends to environmental risk assessments, soil nutrient mapping, and the application of modern analytical instrumentation to solve complex environmental challenges. Through his work, Dr. Anemana seeks to contribute to sustainable development and environmental conservation on both local and global scales.

Publication Top Notes

📄 Optimization of lignite particle size for stabilization of trivalent chromium in soils | T. Anemana, et al. | Soil and Sediment Contamination: An International Journal 29(3), 272-291, 2020

🧪 Granular activated charcoal from peanut shell as a new candidate for stabilization of arsenic in soil | T. Anemana, et al. | Microchemical Journal 149, 104030, 2019

🌍 Simultaneous Determination of Heavy Metals in Competitive Aqueous Solutions and Contaminated Soil Systems | T. Anemana, et al. | Kalahari Journals, 2022

🧬 Experimental and theoretical investigations of complex formation of substituted phenylazo-derivatives of methylphloroglucinol | A.T. Amangdam, et al. | Journal of Advances in Chemistry 4(1), 2013

🌱 Iodide- and electrochemical assisted removal of mercury by Cirsium arvense from gold tailings in the Amansie West District, Ghana | T.A. Anemana, et al. | International Journal of Phytoremediation, 2024

 

Conclusion

Dr. Timothy Amangdam Anemana is a strong candidate for the Research for Best Researcher Award, given his extensive experience in environmental chemistry, his contributions to soil and water remediation, and his role in mentoring the next generation of scientists. To enhance his candidacy, he could focus on increasing the global impact of his research and expanding his leadership in large-scale projects. With these enhancements, Dr. Anemana’s already impressive profile would be further solidified as a leading researcher in his field.

Fang Guo | Hydrological and Water Resources Sciences | Best Researcher Award

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Prof Dr Fang Guo | Hydrological and Water Resources Sciences | Best Researcher Award

Prof Dr Fang Guo , Institute of Karst Geology, Chinese Academy of Geological Sciences, China

🧑‍🔬 Fang Guo is a distinguished researcher and PhD advisor at the Institute of Karst Geology, Chinese Academy of Geological Sciences. With a deep-seated expertise in karst hydrogeology and hydrogeochemistry, she has dedicated her career to advancing the understanding of groundwater-surface water interactions, karst hyporheic zones, and eco-hydrological processes. Her research also extends to the restoration of wetland water environments and the preservation of carbonate rock cultural relics. A recipient of the prestigious “Young Karst Researcher” prize by the International Association of Hydrogeologists (IAH) in 2010, Fang Guo has led numerous nationally funded projects, making significant strides in the field. She has published 65 influential papers in top-tier journals like the Journal of Hydrology. Her contributions to karst geology and environmental sciences continue to resonate globally, establishing her as a leading figure in her domain. 🌍📚

Publication Profile

Scopus

Strengths for the Award

  • Expertise and Experience: Fang Guo has a deep and extensive background in karst hydrogeology and hydrogeochemistry, which is highly specialized and significant for environmental and geological research. Her long-term engagement in these fields underscores her commitment and depth of knowledge.
  • Research Impact: She has made substantial contributions to understanding groundwater-surface water interactions, karst eco-hydrological processes, and wetland water environment restoration. These areas are critical for sustainable water management and environmental conservation, adding value to global ecological efforts.
  • Recognition: Being awarded the “Young Karst Researcher” prize by the IAH Commission on Karst Hydrogeology in 2010 highlights her early recognition as a promising researcher in her field.
  • Leadership in Research Projects: Leading four National Natural Science Foundation of China projects and key projects under other major national programs showcases her ability to secure funding and manage large-scale, impactful research endeavors.
  • Publication Record: With 65 papers published in reputable academic journals, including high-impact journals like the Journal of Hydrology, her research has contributed significantly to the scientific community.
  • Awards: Receiving the second-class Provincial and Ministerial Science and Technology Progress Award and a first-class China Geological Survey Achievement Award further solidifies her status as a respected researcher in her field.

Areas for Improvement

  • Diversity in Research Topics: While her expertise in karst hydrogeology and related fields is undeniable, expanding her research to include broader geological or environmental topics could enhance her versatility as a researcher and open up new collaborative opportunities.
  • International Collaboration: Although she has international recognition, increasing her collaborations with global research institutions or participating in international research initiatives could further elevate her profile and impact.
  • Lead Authorship: While she has authored many papers, being a first author in more high-impact publications would strengthen her position as a leader in her field.

Education 

🎓 Fang Guo’s academic journey is marked by a solid foundation in geosciences, specializing in karst hydrogeology and hydrogeochemistry. She pursued her undergraduate studies in Geology, where she developed a keen interest in groundwater-surface water interactions and karst systems. Driven by her passion for research, she completed her master’s degree in Hydrogeology, focusing on the intricate processes of karst environments. Her commitment to advancing knowledge in this field led her to pursue a PhD, during which she conducted groundbreaking research on karst hyporheic zones and eco-hydrological processes. Under the guidance of esteemed mentors and through rigorous research, Fang Guo honed her expertise, contributing to the understanding of karst systems’ complexities. Her educational background has been instrumental in shaping her career as a leading researcher, allowing her to make significant contributions to karst geology and environmental sciences. 🌱🔬

 Experience 

💼 Fang Guo has accumulated extensive experience in the field of karst hydrogeology and hydrogeochemistry. She has been a researcher and PhD advisor at the Institute of Karst Geology, Chinese Academy of Geological Sciences, where she has led and participated in numerous high-impact research projects. Her work has primarily focused on groundwater-surface water interactions, karst hyporheic zones, and eco-hydrological processes, with a strong emphasis on environmental conservation and sustainable water management. Fang Guo has successfully led four projects funded by the National Natural Science Foundation of China and key projects under the Guangxi Natural Science Foundation, the National “11th Five-Year” Science and Technology Support Program, and several National Key R&D Program topics. Her experience also extends to publishing extensively in top-tier journals, mentoring graduate students, and collaborating with international research teams, further solidifying her reputation as a leading expert in her field. 🌊🔍

Awards and Honors

🏆 Fang Guo’s contributions to karst hydrogeology and hydrogeochemistry have been recognized through numerous awards and honors. In 2010, she was awarded the “Young Karst Researcher” prize by the International Association of Hydrogeologists (IAH) Commission on Karst Hydrogeology, acknowledging her early promise and significant contributions to the field. Her research has also earned her a second-class Provincial and Ministerial Science and Technology Progress Award, where she was the third author, and a first-class China Geological Survey Achievement Award, where she contributed as the seventh author. These accolades reflect her dedication to advancing the understanding of karst systems and her impact on environmental sciences. Fang Guo’s awards underscore her role as a leading figure in karst geology, highlighting her innovative research and commitment to addressing critical environmental challenges. 🥇🌍

Research Focus

🔬 Fang Guo’s research is centered on understanding and preserving karst environments, with a primary focus on karst hydrogeology, hydrogeochemistry, and eco-hydrological processes. Her work has significantly advanced the knowledge of groundwater-surface water interactions, karst hyporheic zones, and the ecological dynamics within karst systems. She has also been actively involved in monitoring and managing karst groundwater, contributing to the restoration of wetland water environments and the conservation of carbonate rock cultural relics. Fang Guo’s research extends to exploring the weathering and destruction mechanisms of these relics, aiming to preserve these vital cultural and natural resources. Her studies are not only crucial for environmental sustainability but also for understanding the complex interactions within karst ecosystems. Through her work, she continues to contribute valuable insights that inform both scientific understanding and practical conservation efforts. 🌿💧

Publication Top Notes

🌊 Jiang, G.H., Guo, F.*, Wei, L.Q., Li, W.Y. Characterizing the transitory groundwater-surface water interaction and its environmental consequence of a riverside karst pool. Science of The Total Environment, 2023, 902: 166532.

🦠 Guo F., Jiang G.H., Liu F. Plankton distribution patterns and the indicative significance of diverse cave wetlands in subtropical karst basin. Front. Environ. Sci., 2022, 10:970485. doi: 10.3389/fenvs.2022.970485.

🧪 Guo F., Jiang G.H., Liu F. Biological sulfate reduction in an epigene karst aquifer and its impact on cave environment. Journal of Hydrology, 2021, 602,126804.

🌱 Guo F., Jiang G.H. Hydro-ecological processes of hyporheic zone in a karst spring-fed pool: Effects of groundwater decline and river backflow. Journal of Hydrology, 2020, 587:124987

Conclusion

Fang Guo is a highly accomplished and recognized researcher in the field of karst hydrogeology, with a strong track record of impactful research, leadership in major projects, and contributions to environmental science. Her achievements and recognition make her a strong candidate for the Research for Best Researcher Award. While there is room for further growth in international collaboration and expanding her research scope, her current strengths make her well-suited for this prestigious award.

Agnieszka Pieniążek | Sustainability Award | Best Researcher Award

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Dr Agnieszka Pieniążek | Sustainability Award | Best Researcher Award

Dr Agnieszka Pieniążek, Institute of Physics PAS , Poland

Agnieszka Pieniążek 🌟 is an Assistant Professor at the Institute of Physics PAS, Warsaw, Poland. She completed her doctoral studies in Physical Sciences and holds master’s degrees in Analytical Chemistry and Applied Physics from leading Polish universities. Agnieszka’s research focuses on wide bandgap semiconductors, perovskites, and nanostructures, exploring their optical and electronic properties. She has authored 22 SCI and Scopus indexed articles and holds a patent for quantum nanostructures. Recognized for her Outstanding Doctoral Dissertation by the Polish Society for Crystal Growth, she continues to contribute significantly to the field of materials science and semiconductor physics.

 

Publication Profile

Scopus

Education

Agnieszka Pieniążek pursued her academic journey with dedication and achievement. She completed her Doctoral Studies in Physical Sciences at the Institute of Physics PAS, Warsaw, Poland, spanning from October 2013 to June 2019. Prior to that, she earned a Master’s Degree in Analytical Chemistry from Maria Curie-Skłodowska University, Faculty of Chemistry, Lublin, Poland, during October 2008 to July 2013. Her educational foundation also includes a Master’s Degree in Applied Physics from the same university’s Faculty of Mathematics, Physics, and Computer Science, obtained between October 2007 and July 2012. 🎓

Awards

In June 2022, Agnieszka Pieniążek was honored with the Award from the Polish Society for Crystal Growth for her Outstanding Doctoral Dissertation titled “Local Optical Properties of ZnO Microrods Grown by Hydrothermal Method.” This prestigious accolade recognizes her exceptional research contributions in the field of crystal growth and semiconductor optics. Agnieszka’s dissertation delved into the intricate optical characteristics of ZnO microrods, cultivated through innovative hydrothermal techniques. Her work not only expands the understanding of semiconductor materials but also underscores her commitment to advancing scientific knowledge and applications in materials science. 🏆

Research Focus

Agnieszka Pieniążek 🌟 specializes in the research of wide bandgap semiconductors, perovskites, and nanostructures. Her work primarily revolves around investigating the optical and electronic properties of these materials, with a focus on understanding defects, structural dynamics, and their implications for optoelectronic applications. Through her studies, she explores topics such as the bandgap pressure coefficient in perovskite thin films, interdiffusion phenomena in semiconductor alloys, and the cathodoluminescence patterns of semiconductor microrods. Agnieszka’s contributions significantly advance the field of materials science, particularly in enhancing the efficiency and reliability of semiconductor devices for renewable energy and optoelectronics.

 

Publication Top Notes

“Can a bistable amphoteric native defect model explain the photo-induced transformation of MAPbI3 thin films?” by A. Pienia̧żek et al., Solar Energy Materials and Solar Cells, 2024, 274, 112974 📄 Cited by: 0

“Investigation of interdiffusion in thin films of ZnO/ZnCdO grown by molecular beam epitaxy” by M. Stachowicz et al., Thin Solid Films, 2023, 781, 140003 📄 Cited by: 3

“Bandgap Pressure Coefficient of a CH3NH3PbI3 Thin Film Perovskite” by A. Pienia̧żek et al., Journal of Physical Chemistry Letters, 2023, 14(28), pp. 6470–6476 📄 Cited by: 4

“Mixology of MA1-xEAxPbI3 Hybrid Perovskites: Phase Transitions, Cation Dynamics, and Photoluminescence” by M. Šimėnas et al., Chemistry of Materials, 2022, 34(22), pp. 10104–10112 📄 Cited by: 13

“Detailed surface studies on the reduction of Al incorporation into AlGaN grown by molecular beam epitaxy in the Ga-droplet regime” by D. Majchrzak et al., Vacuum, 2022, 202, 111168 📄 Cited by: 6