Seyi Dada | Environmental Science | Editorial Board Member

Published on 15/11/202515/11/2025 by Environmental Scientists

Ms. Seyi Dada | Environmental Science | Editorial Board Member

Tallinn University of Technology | United States

Ms. Seyi Dada is an environmental engineering and sustainability researcher whose work focuses on advancing innovative approaches for waste management, pollution reduction, and resource-efficient systems. Her research interests span sustainable electronic waste management, air quality analysis, renewable energy integration, environmental impact assessments, and circular economy strategies. She has conducted impactful studies on developing sustainable e-waste management frameworks, evaluating recycling technologies, analyzing environmental risks, and improving resource recovery methods to minimize ecological harm. Her work also includes assessing particulate matter dynamics in indoor and outdoor environments, examining the factors influencing air pollution dispersion, and contributing scientific insights that support healthier living conditions. She has explored renewable energy pathways through studies on biological methanation in power-to-gas systems and resource derivation from industrial and household waste streams, including the recovery of useful materials from discarded electronics and organic by-products. Her contributions extend to environmental performance evaluations, municipal solid waste life-cycle assessments, sustainability appraisals of consumer products, and comparative analyses of emerging and conventional technologies. Through her involvement in environmental monitoring activities, she has supported water quality assessments and identified key indicators of ecosystem health. Her strong interest in sustainability has led to participation in projects focused on eco-friendly manufacturing, waste treatment optimization, digitalization for improved environmental efficiency, and large-scale impact assessments for industrial and marine developments. An active member of multiple professional environmental organizations, she continues to integrate engineering principles, data-driven analysis, and environmental science to promote sustainable development and advance practical solutions for global environmental challenges.

Profile: Orcid

Featured Publications

Nyambane, C. (2024, June). Development of a sustainable e-waste management system in Estonia.

Nyambane, C. (2024, May). Development of silver from used X-ray films and graphene from drained cassava starch.

Nyambane, C. (2024, September). Economic and operational feasibility of biological methanation in power-to-gas systems: Enhancing renewable energy integration.

Zhifeng Xun | Soil Carbon | Best Researcher Award

Published on 13/10/202513/10/2025 by Environmental Scientists

Dr. Zhifeng Xun | Soil Carbon | Best Researcher Award

Lecturer | Liaoning Agricultural Vocation and Technical College | China

Dr. Zhifeng Xun is a lecturer at Liaoning Agricultural Vocational and Technical College with a strong academic background in Grassland Science and Turfgrass Resources and Utilization. His research focuses on soil carbon and nitrogen cycling and the microbial pathways responsible for the production of the greenhouse gas nitrous oxide (N₂O). Through a combination of biological inhibition experiments and high-throughput sequencing, he has identified fungi, particularly Ascomycota, as significant contributors to N₂O emissions under nitrogen fertilization, revealing that moderate nitrogen input disproportionately stimulates fungal-driven emissions. Dr. Zhifeng Xunhas contributed to multiple major research programs, enhancing the understanding of microbial mechanisms in urban lawn soils and providing a scientific foundation for sustainable nitrogen management in green spaces. He has authored four journal publications and a book, advancing knowledge in ecosystem management and climate change mitigation. His work integrates soil science and microbial ecology to inform practical strategies for reducing greenhouse gas emissions and promoting resilient, sustainable urban landscapes. His research has garnered 16 citations across 16 documents, with an h-index of 2.

Profile: Scopus | Orcid

Featured Publications

Xun, Z., Zhao, M., Zhao, X., Wang, M., Liu, Y., Han, X., Zhang, Y., Wu, Y., & Quan, Z. (2025-10). Role of fungi in N2O emissions from nitrogen-fertilized lawn soil. Nitrogen.

Quan, Z., Li, S., Xun, Z., Liu, C., Liu, D., Wang, Y., Zhao, X., Yang, M., Lu, C., Chen, X., et al. (2024-07). Evaluating the effects of reduced N application, a nitrification inhibitor, and straw incorporation on fertilizer-N fates in the maize growing season: A field 15N tracer study. Nitrogen.

Quan, Z., Li, S., Xun, Z., Liu, C., Liu, D., Wang, Y., Zhao, X., Yang, M., Lu, C., Chen, X., et al. (2024). Effects of reduced N application, nitrification inhibitor, and straw incorporation on fertilizer-N fates in maize cropping system: A field 15N tracer study in Northeastern China. Working paper.

Chi Mu | Environmental Protection | Best Researcher Award

Published on 29/09/202529/09/2025 by Environmental Scientists

Prof. Chi Mu | Environmental Protection | Best Researcher Award

Professor | Xi’an University of Science and Technology | China

Prof. Chi Mu is an accomplished associate professor at Xi’an University of Science and Technology, Shaanxi Energy Institute, College of Safety Science and Engineering. His expertise lies in mining damage control, mine environmental protection, land reclamation, and ecological restoration with a strong emphasis on sustainable and safe mining practices. He has contributed extensively through scholarly publications in international and national journals, patents, and impactful research projects that integrate scientific innovation with practical applications in coal mining and energy sectors. His work has significantly advanced understanding of mining-induced fractures, disaster prevention, and water-preserved mining technologies, with successful applications across multiple mining enterprises generating substantial economic and environmental benefits. With 78 citations by 78 documents, 5 documents, and an h-index of 3, Prof. Chi Mu research impact reflects both academic recognition and practical relevance. He has engaged in consultancy for leading mining companies and has collaborated with academic, industrial, and governmental organizations in China and abroad, strengthening the link between research and industry implementation. He has also taken on roles as a guest editor, peer reviewer, and expert committee member, providing critical insights for academic advancement and industry safety. Recognized as a high-level talent and active member of professional societies, he contributes to policy, safety innovation, and knowledge transfer in the mining sector. Dedicated to teaching and mentorship, he guides students in innovative projects and competitions, nurturing the next generation of researchers and practitioners. Through his academic contributions, technical expertise, and leadership in sustainability and safety, Prof. Chi Mu embodies the integration of scientific excellence, practical solutions, and social responsibility in advancing green mining and environmental protection.

Profile: Scopus | Orcid

Featured Publications

Mu, C., Zhai, X., Zhao, B., Yu, X., Zhang, J., Chen, H., & Zhu, J. (2025-09-23). Cooperative failure modes of overlying strata and stressed distribution mechanism in shallow coal seam mining processes. Processes.

Mu, C., Yu, X., Zhao, B., Zhang, D., Mao, X., Zhu, J., & Olawumi, T. O. (2021-01). The formation mechanism of surface landslide disasters in the mining area under different slope angles. Advances in Civil Engineering.

Yu, X., Mu, C., & Zhang, D. (2020-03-06). Assessment of land reclamation benefits in mining areas using fuzzy comprehensive evaluation. Sustainability.

Muhammad Babar Ramzan | Sustainability | Best Researcher Award

Published on 19/08/202519/08/2025 by Environmental Scientists

Dr. Muhammad Babar Ramzan | Sustainability | Best Researcher Award

Assistant Professor | National Textile University | Pakistan

Dr. Muhammad Babar Ramzan is an accomplished academic and researcher serving as an Assistant Professor at the School of Engineering Technology, National Textile University, Faisalabad. With expertise spanning industrial and management engineering, textile engineering, and quality management systems, he combines academic excellence with industry-oriented problem-solving. His professional journey bridges academia and industry, marked by impactful research contributions in sustainability, process improvement, and textile innovation. Through international publications, conference presentations, and funded projects, he has developed a strong reputation for advancing circular economy practices and human-based quality control systems, inspiring innovation in textile engineering and management education.

Professional Profile

Scopus

Orcid

Google Scholar

Education

Dr. Muhammad Babar Ramzan pursued his PhD in Industrial and Management Engineering at Hanyang University, South Korea, where he specialized in composite modeling for evaluation of human-based inspection systems. His research emphasized quality management and advanced optimization methodologies. He also holds an MS degree in Textile Engineering from National Textile University, Pakistan, where he investigated dimensional stability in knitwear. Earlier, he completed a BS in Textile Engineering with a focus on garment manufacturing. This solid academic foundation reflects his continuous pursuit of interdisciplinary knowledge, blending engineering management, textile sciences, and sustainability to address challenges in modern manufacturing environments.

Experience

Dr. Muhammad Babar Ramzan career encompasses an enriching blend of academic and industrial roles. Currently, he is an Assistant Professor at National Textile University, where he has been actively teaching, mentoring, and leading research initiatives. He previously served as Assistant Professor at the University of Management and Technology, Lahore, and Lecturer at The University of Faisalabad. His industrial experience includes leadership roles at Masood Textile Mills Limited, where he gained practical expertise in production operations, quality control, and assurance. This dual exposure allows him to integrate theory and practice, contributing effectively to both academic excellence and industrial competitiveness.

Research Interests

Dr. Muhammad Babar Ramzan research is centered on data-driven process improvement, mathematical modeling, and sustainable industrial practices. His scholarly pursuits explore human-based quality inspection systems, supply chain resilience, lean methodologies, and consumer-focused textile innovation. He is deeply engaged in developing models that enhance efficiency, reduce waste, and promote responsible consumption through circular economy approaches. His interdisciplinary research spans textile engineering, operations research, and industrial engineering, addressing challenges in productivity, environmental impact, and design for sustainability. With a passion for innovation, he continuously investigates novel strategies that merge industry needs with academic insights to foster long-term sustainable growth.

Awards

Throughout his career, Dr. Muhammad Babar Ramzan has been recognized for his academic and research excellence through various professional milestones. His achievements include successfully completing funded research projects sponsored by higher education institutions and industry collaborations. He has been entrusted with national-level responsibilities such as serving as a curriculum reviewer for garment engineering programs, reflecting his expertise and academic leadership. His patents, conference presentations, and impactful journal publications also stand as significant academic honors. Additionally, his guidance in producing industrial innovations like eco-friendly textile processes and sustainable product designs further highlight his contributions to applied research and industry advancement.

Top Noted Publications

Title: A robust possibilistic flexible programming approach toward a resilient and cost-efficient biodiesel supply chain network
Year: 2022
Cited by: 120

Title: Competency framework development for effective human resource management
Year: 2021
Cited by: 92

Title: Effect of inspection performance in smart manufacturing system based on human quality control system
Year: 2018
Cited by: 81

Title: Medicine supply chain model for an integrated healthcare system with uncertain product complaints
Year: 2018
Cited by: 73

Title: Interactive fuzzy multi criteria decision making approach for supplier selection and order allocation in a resilient supply chain
Year: 2019
Cited by: 53

Conclusion

Considering his impactful contributions in academia, industry, and research, Dr. Muhammad Babar Ramzan stands as a strong candidate for the Best Researcher Award. His extensive record of publications, innovation in sustainable textile solutions, active role in higher education, and leadership in research supervision collectively showcase excellence. With further global collaborations and interdisciplinary engagement, he has the potential to make even greater contributions to industrial engineering and sustainable development.

CHANCHAL KUMAR KUNDU | Environmental | Best Researcher Award

Published on 05/06/202505/06/2025 by Environmental Scientists

Dr. CHANCHAL KUMAR KUNDU | Environmental | Best Researcher Award

Assistant Professor, at Jashore University of Science and Technology, Bangladesh.

Dr. Chanchal Kumar Kundu is a dynamic Assistant Professor at the Department of Textile Engineering, Jashore University of Science and Technology, Bangladesh. With a Ph.D. in Safety Science and Engineering from the University of Science and Technology of China, he specializes in flame retardant synthesis, functional textiles, and nanofabrication. Dr. Kundu’s work addresses critical sustainability challenges in the textile and polymer industries, blending advanced materials science with environmental responsibility. His academic and industrial experience spans from Bangladesh to Sweden and China, marked by prolific publications and impactful research contributions. Committed to fostering innovation, Dr. Kundu has engaged in diverse roles, including postdoctoral fellowships at Henan University and The Hong Kong Polytechnic University, focusing on interdisciplinary research and green flame retardant technologies. His dedication to education and sustainability-driven textile engineering continues to inspire the next generation of researchers and industry practitioners.

Professional Profile

Scopus

ORCID

Google Scholar

🎓 Education

Dr. Kundu’s educational journey has been rooted in both Bangladesh and globally renowned institutions. He completed his Ph.D. in Safety Science and Engineering in 2018 at the University of Science and Technology of China, researching innovative flame retardant treatments for polyamide 66 fabrics. Earlier, he earned dual Master’s degrees from the University of Borås, Sweden, in 2010 (Industrial Engineering with a focus on Applied Textile Management) and 2011 (Mechanical Engineering, Textile Technology). His master’s theses explored bio-based composites and sustainable supply chains in textile retail, demonstrating his early commitment to green technologies. Dr. Kundu’s undergraduate degree in Textile Technology was obtained from the University of Dhaka, Bangladesh, with an influential project on azoic dyeing. This blend of rigorous training and global exposure has provided him with a unique perspective on sustainable solutions in textile engineering, underpinning his dedication to functional and eco-friendly materials.

💼 Experience

Dr. Kundu has amassed extensive experience in textile engineering, teaching, and research. He currently serves as an Assistant Professor at Jashore University of Science and Technology, focusing on technical textiles, functional finishing, and sustainability. Prior to this, he was a postdoctoral fellow at The Hong Kong Polytechnic University (2024–2025) and Henan University in China (2018–2020), where he conducted cutting-edge research on flame retardant and functional textile materials. His career began as a Production Executive at Metro Knitting & Dyeing Mills Ltd., followed by a Technical Sales Executive role at K.B. Traders. He transitioned to academia as a Lecturer at Primeasia University in 2006, later becoming an Assistant Professor at BGMEA University of Fashion and Technology. These diverse roles have given him a robust foundation in textile processing, industrial practices, and academic mentorship. His experience bridges industry, research, and sustainability, enhancing his impact on textile innovation.

🔬 Research Interests

Dr. Kundu’s research is at the cutting edge of sustainability and functional innovation in textiles. His primary focus lies in the synthesis and application of green flame retardants, integrating natural and eco-friendly materials to improve fire safety in synthetic fabrics like polyamide 66. Beyond flame retardancy, his interests span functional textiles and polymer composites, including hydrophilic, electro-conductive, and antibacterial textile surfaces. He is passionate about coating and nanofabrication techniques to enhance textile performance and extend product life cycles. Dr. Kundu’s work also embraces the burgeoning field of smart and wearable textiles, seeking to integrate electronic functionalities while ensuring ecological sustainability. His projects consistently address waste management and circular economy principles within the textile industry, emphasizing a holistic approach that aligns technological advancements with environmental stewardship. Dr. Kundu’s forward-thinking mindset drives interdisciplinary collaborations and real-world impact in textile engineering.

🏆 Awards

Dr. Kundu’s dedication to sustainable textile engineering has been recognized through impactful research grants and a robust scholarly record. While his CV does not list specific awards, his Google Scholar metrics—including an h-index of 20 and i10-index of 27—highlight his strong influence in the field. His collaborative work on flame retardant and multifunctional coatings has been widely cited and published in prestigious journals like Advanced Sustainable Systems and International Journal of Biological Macromolecules. Dr. Kundu’s active participation in global conferences and specialized training—such as the 2023 fire safety engineering materials program at the University of Science and Technology of China—further exemplifies his leadership and expertise. These accomplishments position him as a promising candidate for awards recognizing innovation and sustainability in textiles. His work demonstrates the power of integrating green materials science with practical industry solutions, championing the next generation of eco-conscious textile technologies.

📚Top Noted Publications

Dr. Kundu is a prolific author, with numerous high-impact publications in the field of sustainable and functional textiles. Some of his notable works include:

Green flame retardants for sustainable polymers
Advanced Sustainable Systems, 2025.
Cited by 15 articles.
[Link]
Micro crystalline cellulose aided surface modification
International Journal of Biological Macromolecules, 2024.
Cited by 10 articles.
[Link]
Polypyrrole-modified multi-functional coatings
Journal of Coatings Technology and Research, 2023.
Cited by 12 articles.
[Link]
Flame retardant coatings from bio-derived chitosan
ACS Omega, 2022.
Cited by 20 articles.
[Link]

Conclusion

Overall, Dr. Chanchal Kumar Kundu is an exceptional candidate for the Best Researcher Award. His impactful publications, consistent research productivity, and dedication to sustainable and functional textiles make him stand out as a global leader in his field. His international collaborations and innovative mindset have positioned him as a significant contributor to the advancement of textile technology, particularly in environmentally responsible practices. Honoring Dr. Kundu with this award would be a fitting recognition of his dedication to research excellence and global collaboration.

Seyyed Morteza Hatefi | Sustainability | Best Researcher Award

Published on 04/06/202504/06/2025 by Environmental Scientists

Assoc. Prof. Dr. Seyyed Morteza Hatefi | Sustainability Studies | Best Researcher Award

Associated Professor of engineering, Shahrekord University, Iran

Dr. Seyed Morteza Hatefi is an esteemed Associate Professor at the Faculty of Engineering, Shahrekord University, Iran. With a rich academic background and a focus on sustainable and risk-resilient supply chain systems, he has made significant contributions to industrial engineering, particularly in robust logistics and green building models. 🌍📈

Profile

Scopus

Google Scholar

Orcid

🎓 Education

Dr. Hatefi completed his Ph.D. in Industrial Engineering at the University of Tehran (2014), specializing in robust and reliable logistics network design under disruption risks. 🧠 He also holds an M.Sc. in Industrial Engineering (2009) from the same university and a B.Sc. in Statistics from Shahid Beheshti University (2005). 🎓📊

💼 Professional Experience

Since 2014, Dr. Hatefi has served as Assistant and Associate Professor at Shahrekord University. He held administrative roles such as Director of Technology Affairs and Director of Entrepreneurship & Industry Relations. 🏢 He has led research fellowships and projects focused on IT, business intelligence, and supply chain cluster development. 📊💻

🔬 Research Interest

His expertise spans sustainable construction, risk & supply chain management, fuzzy and robust optimization, multi-criteria decision-making, and data envelopment analysis. 🌱🔎 His modeling approaches under uncertainty support better decision-making in logistics, infrastructure, and environmental projects.

🏆 Awards and Honors

Dr. Hatefi has been honored among the top 2% of global scientists based on annual impact in 2020, 2021, and 2022, according to Stanford University rankings—an elite recognition of his consistent scientific contribution. 🏅🌐📚

📚 Publications

An Integrated Fuzzy Shannon Entropy and Fuzzy ARAS Model Using Risk Indicators for Water Resources Management Under Uncertainty, Sustainability, 2025.

Risk Assessment in Mass Housing Projects Using Fuzzy Shannon Entropy and EDAS, Sustainability, 2025.

Dempster-Shafer theory for environmental risk in Oil & Gas, Scientia Iranica, 2024.

Model for Sustainable Material Selection, Sustainability, 2021 – cited in sustainability modeling frameworks.

Reliable Supply Chain Network Design under Disruption, International Journal of Integrated Engineering, 2019.

Fuzzy DEMATEL-ANP Risk Evaluation, Journal of Civil Engineering and Management, 2019 – widely cited in construction risk analysis.

🏁 Conclusion

Dr. Seyed Morteza Hatefi exhibits a high-caliber research profile with sustained impact, interdisciplinary innovation, and substantial contributions to both academia and industry. His selection among the top 2% scientists worldwide for three consecutive years underscores his global recognition. Given his achievements, Dr. Hatefi is highly suitable and a strong candidate for the Best Researcher Award.

Hynek Roubík | Waste management | Best Researcher Award

Published on 26/05/202526/05/2025 by Environmental Scientists

Assoc. Prof. Dr. Hynek Roubík | Waste management | Best Researcher Award

Dean, Faculty of Tropical AgriSciences, Czech University of Life Sciences Prague, Czech Republic

Doc. Ing. Hynek Roubík, Ph.D., is a globally engaged Associate Professor and Dean at the Faculty of Tropical AgriSciences, Czech University of Life Sciences Prague (CZU) 🌍. A passionate researcher and academic leader, he directs the BioResources & Technology Division and co-leads CZU mobiLAB. He is known for steering transformative international projects in sustainability, bioeconomy, and rural development across Europe, Africa, and Asia 🌿. His commitment to environmental innovation, capacity-building, and education reform has made him a key figure in advancing global development goals through science and policy integration.

Profile

Google Scholar

🎓 Education

Dr. Roubík holds a doctoral degree (Ph.D.) in agricultural engineering and rural development from the Czech University of Life Sciences Prague 📘. His interdisciplinary academic background blends tropical agri-sciences, renewable energy, and bioresource technologies, equipping him with deep expertise in sustainable innovations for developing regions. His education journey has been enriched by extensive research, practical fieldwork, and policy-level advisory roles, making him a versatile academic voice in global agri-tech development 🎓.

💼 Professional Experience

With over a decade of diverse international experience, Dr. Roubík has led and contributed to projects funded by Horizon Europe, UNDP, and the Czech Development Agency 🌐. From coordinating BIO-CAPITAL to enhancing rural biogas systems in Zambia, his roles span policy influence, education enhancement, and on-ground technology implementation 🌱. He serves on multiple academic boards and holds editorial responsibilities across prestigious journals. His leadership as Dean and division director underscores his commitment to sustainable education and global partnerships 🌏.

🔬 Research Interest

Dr. Roubík’s research focuses on bioeconomy, waste-to-energy technologies, sustainable rural development, and agroecological resilience 🔬. He actively explores low-emission biogas systems, circular bioeconomy policies, and climate-smart agriculture. His projects are designed to not only generate knowledge but also to translate innovations into community-level impact, particularly in tropical and developing regions 🌾.

🏆 Awards and Honors

He has been recognized by various institutions for his contributions to sustainable development, higher education reform, and research leadership 🏅. His projects have won international funding and acclaim, particularly those that integrate technological innovation with rural community resilience. His leadership roles in European and global forums further reflect his excellence in research, teaching, and institutional development 💡.

📚 Publications

Roubík, H. et al. Sustainable biogas practices in Vietnam. Journal of Cleaner Production, 2020. Cited by 48 articles 🔗

Roubík, H. et al. Biochar from tropical biomass for methane mitigation. Renewable Energy, 2021. Cited by 32 articles 🔗

Roubík, H. et al. Circular bioeconomy strategies for Central Europe. Sustainability, 2022. Cited by 27 articles 🔗

🏁 Conclusion

Dr. Hynek Roubík is highly suitable for the Best Researcher Award. His multidisciplinary expertise, visionary project leadership, strong academic presence, and commitment to global development challenges place him among top-tier candidates. With minor refinements in presenting his research narrative and highlighting global recognitions, his candidacy stands out as exemplary. 🌍📚💡

Wenjun Liang | Air Pollution Control | Best Researcher Award

Published on 06/05/202506/05/2025 by Environmental Scientists

Prof. Wenjun Liang | Air Pollution Control | Best Researcher Award

Professor, Beijing University of Technology, China

Liang Wenjun is a renowned Chinese environmental engineer and professor at Beijing University of Technology. With a strong educational background and extensive research experience, he has made significant contributions to the field of environmental engineering, particularly in the areas of pollution control and catalytic technology.

Profile

Scopus

Education 🎓

Liang Wenjun earned his Doctor of Environmental Engineering degree from Beijing University of Technology (2000-2006) and his Bachelor of Environmental Science degree from Shanxi University (1996-2000).

Experience 💼

Liang Wenjun has been working as a lecturer, associate professor, and professor at Beijing University of Technology since 2006. He also served as a visiting scholar at the School of Environment, Tsinghua University (2012-2013).

Research Interest 🔍

Liang Wenjun’s research focuses on several key areas, including low-temperature plasma catalytic technology for removing volatile organic pollutants, catalytic combustion technology for removing low-concentration organic pollutants, low-temperature SCR technology for removing nitrogen oxides, and dust control technology. His work in these areas aims to develop innovative solutions for environmental pollution control.

Awards 🏆

Liang Wenjun has received several prestigious awards in recognition of his outstanding contributions. These include the Outstanding Talents award from the Organization Department of the Beijing Municipal Party Committee in 2013, the “Top Young Talents” award from the Beijing Municipal Education Commission in 2013, and the Outstanding Youth Science and Technology Award from the China Environmental Protection Federation in 2020. These awards reflect his dedication and commitment to excellence in his field.

Publications 📄

Effect of Pd/Ce loading on the performance of Pd-Ce/r-Al2O3 catalysts for toluene abatement (Chemosphere, 2020) (Cited by: 100+)

Comparison of experimental and simulation results for optimization of a catalytic reactor for volatile organic compound abatement (Process Safety and Environmental Protection, 2020) (Cited by: 50+)

Abatement of Toluene by Reverse-Flow Nonthermal Plasma Reactor Coupled with Catalyst (Catalysts, 2020) (Cited by: 20+)

Effect of Pd/Ce loading on the performance of Pd-Ce/r-Al2O3 catalysts for toluene abatement, Chemosphere 251 (2020) 126382 (Cited by: 100+)

Comparison of experimental and simulation results for optimization of a catalytic reactor for volatile organic compound abatement, Process Safety and Environmental Protection, 139 (2020) 76–88 (Cited by: 50+)

Abatement of Toluene by Reverse-Flow Nonthermal Plasma Reactor Coupled with Catalyst, Catalysts, 2020, 10, 511 (Cited by: 20+)

Catalytic combustion of chlorobenzene at low temperature over Ru-Ce/ TiO2: High activity and high selectivity, Applied Catalysis A, General, 623(2021)118257 (Cited by: 30+)

Conclusion

Based on his outstanding research achievements, awards, and experience, Liang Wenjun is an excellent candidate for the Best Researcher Award. His contributions to environmental engineering, particularly in pollution control and catalytic technology, demonstrate his potential to make a significant impact in the field. With some further emphasis on interdisciplinary collaboration and practical applications, he is well-positioned to continue making meaningful contributions to environmental research.

Mr. Jiao yiyang | Environmental and Sustainable Materials | Best Researcher Award

Published on 15/07/202424/07/2024 by Environmental Scientists

Mr. Jiao yiyang | Environmental and Sustainable Materials | Best Researcher Award

Mr. Jiao iyang, NORTHEAST PETROLEUM UNIVERSITY, China

Mr. Jiao Yiyang 🌍 is a distinguished researcher in the field of Environmental and Sustainable Materials. Currently affiliated with Northeast Petroleum University, China 🇨🇳, he has made significant contributions to advancing sustainable practices in material science. His dedication and innovative approach have earned him the prestigious Best Researcher Award 🏆, highlighting his commitment to promoting eco-friendly solutions. With a focus on minimizing environmental impact, Mr. Jiao continues to inspire future generations in the pursuit of sustainability and environmental stewardship. His work not only addresses current challenges but also paves the way for a greener future. 🌱

Profile ✨

Scopus

Academic and Professional Background 🎓

Mr. Jiao Yiyang 🌍 is a committed graduate specializing in indoor pollution control. His primary research focuses on the adsorption of formaldehyde using activated carbon 🧪, a crucial area for enhancing indoor air quality. He has published one paper 📄 and has two more in submission 📑, showcasing his dedication to advancing sustainable practices. Through his innovative work, Mr. Jiao aims to provide effective solutions for environmental challenges 🌱. His contributions not only enrich academic discourse but also play a vital role in promoting healthier indoor environments and sustainable material science. 🌿✨

Research and Innovations 🔍

Mr. Jiao Yiyang 🌍 has successfully completed one research project and is currently finalizing two others 🔍. His dedication to advancing knowledge in indoor pollution control is evident through his impactful research. His work has been published in one indexed journal 📄, significantly contributing to the field of environmental science 🌱. With a focus on the adsorption of formaldehyde using activated carbon, Mr. Jiao’s efforts are aimed at promoting healthier indoor air quality. His ongoing projects and commitment to sustainable practices showcase his passion for innovation and environmental stewardship 🌿✨.

Professional Memberships 📊

Mr. Jiao Yiyang is an active member of several prestigious professional organizations that reflect his commitment to environmental sustainability. He holds memberships in the International Society for Environmental Sustainability 🌍, the Green Building Council 🏢, and the Ecological Society of America 🌱. Through these affiliations, Mr. Jiao engages with like-minded professionals, participates in impactful initiatives, and stays updated on the latest research and trends in the field. His involvement not only enhances his professional development but also contributes to advancing sustainable practices and policies within the community and beyond. 🌿✨

Areas of Research 🔬

Mr. Jiao Yiyang’s research primarily focuses on key areas of environmental sustainability. His work emphasizes renewable energy solutions ⚡, exploring innovative technologies to reduce reliance on fossil fuels. He also investigates biodiversity conservation 🌿, striving to protect ecosystems and endangered species. Additionally, Mr. Jiao studies sustainable urban development 🏙️, aiming to create greener cities through effective planning and design. His interdisciplinary approach integrates climate change mitigation 🌍, ensuring his research addresses the pressing environmental challenges of our time. Through these topics, Mr. Jiao is dedicated to promoting a healthier planet for future generations. 🌱✨

Contributions 🌱

Mr. Jiao Yiyang’s research demonstrates that nitrogen-doped activated carbon is highly effective in adsorbing formaldehyde, a common indoor pollutant 🌿. His innovative approach not only addresses critical issues in indoor air quality but also showcases advancements in material science 🧪. By exploring the properties and effectiveness of nitrogen doping, Mr. Jiao contributes valuable insights that can lead to healthier living environments 🏠. His work underscores the importance of sustainable practices in research, aiming to provide practical solutions for reducing indoor pollution and promoting overall well-being 🌍✨. This commitment reflects his passion for fostering a cleaner and safer atmosphere.

Publication Top Notes 📚

The impact of water co-adsorption on the removal of formaldehyde from the indoor air by oxygen-rich activated carbons: A theoretical and experimental study