Xiu-Teng Wang | Environmental Data Analysis | Best Researcher Award

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Dr. Xiu-Teng Wang | Environmental Data Analysis | Best Researcher Award

China Institute of Standardization | China

Dr. Xiu-Teng Wang is a leading researcher in environmental protection and standardization, known for his extensive work in solid and hazardous waste management. He earned his B.Sc. from the School of Chemistry and Materials Science at the University of Science and Technology of China in 2004 and completed his Ph.D. in Science at the School of Chemistry and Molecular Engineering at Peking University in 2009. Since then, he has worked at the China National Institute of Standardization, contributing to national efforts in solid waste treatment, air pollution control, and environmental management. From 2015 to 2017, he served as Vice President of the Standardization Institute of the Inner Mongolia Autonomous Region as part of the 16th batch of national doctoral service teams. He currently serves as Chief Researcher of Environmental Protection and Secretary General of SAC/TC275 and the national hazardous waste standards working group while also acting as liaison to ISO/TC275. His research focuses on developing standards for waste treatment, disposal, and resource utilization, and he has led multiple national key R&D and technology projects. With 44 documents, 1,376 citations, 1,260 citing documents, and an h-index of 17, he has established a strong academic presence. His contributions have earned several national awards, underscoring his influence in environmental standardization.

Profile : Scopus 

Featured Publications

(2025). Environmental risk assessment of liquid aluminum sulfate water treatment agent prepared from waste sulfuric acid in the integrated circuit industry. Sustainability.

(2025). Crystal structure of 72,73,75,76-tetrafluoro-25,44-di-methyl-31,33,36,38-tetraoxo-31,32,33,36,37,38-hexahydro-3(2,7)-benzo[lmn][3,8]phenanthrolina-1,5(4,1)dipyridin-1-iuma-2,4(1,2),7(1,4)-tribenzenacyclooctaphane-11,51-diium hexafluoridophosphate, [C46H28F4N4O4][PF6]2, a dicationic cyclophane. Zeitschrift für Kristallographie – New Crystal Structures.

(2025). Highly fluorescent, water-soluble tetrapodal perylene diimides insulated by cationic pendants for live-cell imaging. Dyes and Pigments.

(2025). Crystal structure of di-μ-azido-κ1N bis[2-(1,10-phenanthrolin-2-yl)benzo[d]imidazol-1-ido-κ3N,N’,N”]-bis(methanol-κ1O)-di-manganese. Zeitschrift für Kristallographie – New Crystal Structures.

Gennaro Trancone | Environmental Engineering  | Research Excellence Award

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Prof. Dr. Gennaro Trancone | Environmental Engineering  | Research Excellence Award

University of Naples “Federico II | Italy

Gennaro Trancone is a civil and environmental engineer specializing in environmental biotechnology, waste-to-energy systems, and sustainable solid-waste management. He holds a Ph.D. in Civil Systems Engineering from the University of Naples “Federico II,” where his dissertation focused on biological leaching as a sustainable method for treating construction and demolition waste. With 9 scientific documents, 155 citations, and an h-index of 7 (cited by 123 documents), his research spans anaerobic digestion, dark fermentation, biofilm reactors, renewable biogas production, and remediation of asbestos-contaminated materials. He has contributed to national and international conferences and serves as a reviewer for over 20 peer-reviewed journals. His academic experience includes teaching in soil bioengineering and supporting courses in contaminated-site remediation, sanitary engineering, and waste management. Professionally, he has served as a technical commissioner, project engineer, and consultant for wastewater treatment and marine environmental studies. His work integrates microbial processes, chemical characterization, and circular-economy strategies to create scalable, low-carbon solutions for waste valorization and environmental protection. Recognized for his multidisciplinary approach, he aims to advance biorefinery systems, eco-efficient remediation technologies, and predictive tools for environmental monitoring, contributing to sustainable development and next-generation environmental engineering practices.

Profiles : Scopus | Orcid 

Featured Publications

Bounaas, M., Haouichi, M., Gattal, B., Hamza, W., Benalia, A., Derbal, K., Benzina, M., Pizzi, A., Trancone, G., & Panico, A. (2025). “Optimization of NaOH chemical treatment parameters for biomass-based adsorbents in cationic dye removal processes” in Processes.

Achouri, O., Bianco, F., Trancone, G., & Race, M. (2025). “A critical review of anaerobic biofilm reactors for the renewable biogas production from food waste” in Journal of Environmental Chemical Engineering.

Trancone, G., Policastro, G., Spasiano, D., Race, M., Parrino, F., Fratino, U., Fabbricino, M., & Pirozzi, F. (2025). “Treatment of concrete waste from construction and demolition activities: Application of organic acids from continuous dark fermentation in moving bed biofilm reactors” in Chemical Engineering Journal.

Ferraro, A., Marino, E., Trancone, G., Race, M., Mali, M., Pontoni, L., Fabbricino, M., Spasiano, D., & Fratino, U. (2023). “Assessment of environmental parameters effect on potentially toxic elements mobility in foreshore sediments to support marine-coastal contamination prediction” in Marine Pollution Bulletin.

Veropalumbo, R., Oreto, C., Viscione, N., Pirozzi, F., Pontoni, L., Trancone, G., Race, M., & Russo, F. (2023). “Exploring the effect on the environment of encapsulated micro- and nano-plastics into asphalt mastics for road pavement” in Environmental Research.

Vilma Petkova | Qualitative Research | Best Researcher Award

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Prof. Vilma Petkova | Qualitative Research | Best Researcher Award

Institute of Mineralogy and Crystallography “Acad. Ivan Kostov”, Bulgarian Academy of Sciences | Bulgaria

Prof. Vilma Petkova is an eminent chemist-engineer and researcher specializing in inorganic materials science, crystallography, thermal analysis, and environmentally clean technologies. She holds a Ph.D. in Chemical Technology and Metallurgy and has over three decades of academic and research experience, serving in positions ranging from Assistant Professor to full Professor at the Institute of Mineralogy and Crystallography, Bulgarian Academy of Sciences, and New Bulgarian University. Her research spans inorganic substances, nanomaterials, cement and construction materials, fertilizers, solid-phase kinetics, thermal and X-ray analysis, spectroscopy, and eco-friendly materials. Prof. Petkova has supervised numerous bachelor, master, and Ph.D. students, actively participated in over 130 national and international conferences, and contributed to more than 193 publications, including 89 indexed in IF/SJR journals, accumulating 904 citations across 744 documents with an h-index of 18. She has led and participated in national and international research projects, served on scientific councils, editorial boards, and accreditation panels, and received recognition for her leadership in thermal analysis and materials science. Her expertise integrates material characterization, environmental chemistry, biotechnology, and sustainable development. Prof. Petkova continues to advance research, mentor emerging scientists, and contribute to global knowledge in material science and chemistry, promoting innovations that balance technological progress with environmental sustainability.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Petkova, V., Mihaylova, K., Serafimova, E., Titorenkova, R., Tsvetanova, L., & Trikkel, A. (2025). “Impact of High Energy Milling and Mineral Additives on a Carbonate–Quartz–Apatite System for Ecological Applications.” Materials.

Petkova, V., Mihaylova, K., Kaljuvee, T., & Piroeva, I. (2025). “Induced structural changes within a natural apatite-calcite system via short-time mechanochemical activation.” Materials Chemistry and Physics.

Petkova, V., Stoyanov, V., Mihaylova, K., & Kostova, B. (2025). “Impact of pozzolanic and inert powders on the microstructure and thermal chemistry of cement mortars.” Ceramics International.

Stoyanov, V., Petkova, V., Mihaylova, K., & Shopska, M. (2024). “A Study of the Influence of Thermoactivated Natural Zeolite on the Hydration of White Cement Mortars.” Materials.

Serafimova, E., & Petkova, V. (2022). “BTEX exposure in indoor air in schools in Bulgaria.” IOP Conference Series: Materials Science and Engineering.

Sven Marc Henri Colen | Qualitative Research | Best Researcher Award

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Mr. Sven Marc Henri Colen | Qualitative Research | Best Researcher Award

Technical University Munich | Germany

Mr. Sven Marc Henri Colen PhD candidate in Sustainable Corporate Management at the Technical University of Munich, Sven Marc Henri Colen focuses his research on the green relocation of industrial production to developing countries, with a publication in Business Strategy and the Environment and academic engagements at UC Berkeley and international conferences. He holds a Master’s degree in Market-oriented Management (Top 5%) from the Catholic University of Eichstätt-Ingolstadt and a Bachelor’s degree in Law and Economics from the University of Augsburg, complemented by study experiences in Japan and South Korea. Professionally, he served as a Senior Consultant at Roland Berger, leading large-scale sustainability and decarbonization projects across the steel, energy, aviation, and automotive sectors. His consulting work emphasized green hydrogen, carbon reduction strategies, and sustainable business transformations. Actively involved in social entrepreneurship and mentoring, he co-founded a personal development start-up and supports student consultancies across Germany. His research and professional interests lie in corporate sustainability, industrial decarbonization, and green technology transitions. Recipient of several international scholarships, including the DAAD Green Hydrogen Fellowship, he combines academic rigor with practical impact, aiming to foster sustainable industrial transformation and global climate action through interdisciplinary and evidence-based management approaches.

Profile : Orcid

Featured Publications

Colen, S., & Mohnen, A. (2025, November). Between sunlight and sales: Market access constraints and conceptualizing the renewables pull effect.

Colen, S., & Mohnen, A. (2025, May). Unpacking the Renewable Pull Effect: Conditions for Green Industrial Relocation.

Colen, S. (2021, March). NTT International — Transforming a Japanese Keiretsu into a Tech Giant.

yanhong wu | Optimization Techniques | Best Researcher Award

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Prof. yanhong wu | Optimization Techniques | Best Researcher Award

UCSI University | China

Prof. Yanhong Wu holds a PhD in Business Administration from UCSI University (Malaysia) and previously earned a Master’s and Bachelor’s in Accounting at Chinese institutions. Since 2009 she has served as Professor at the School of Accounting, Zhanjiang University of Science and Technology, following early-career experience as an accounting supervisor in industry. Her research addresses supply chain management, circular economy, blockchain-enabled accounting systems and accounting education innovation. She has published around 27 peer-reviewed articles including eight SSCI/SCI pieces, 18 EI(CA) indexed papers and six in the Beijing University Core list. She has also secured a national utility-model patent, a software copyright, and authored the monograph Cost Accounting for Enterprises Based on Blockchain Technology. She has led more than ten research and curriculum-reform projects at provincial, municipal and institutional levels including themes such as “dual-teacher” faculty development and AI-enhanced classroom innovation. Her current h-index is approximately 3  and she has accumulated in the region of ~93 citations across her publications. Looking ahead, she continues to advance research at the interface of accounting, sustainability and digital technologies, and is dedicated to cultivating applied-accounting talent for the next generation of enterprises.

Profiles : Scopus | Orcid

Featured Publications

Wu, Y. (2025). Financial and environmental impact in closed-loop circular supply chain. Supply Chain Forum: An International Journal.

Wu, Y. (2025). Blockchain-enabled sustainable supply chain management: a study on the impact of collaboration optimization. Management Decision.

Zheng, X. (2024, December 27). Integration of Big Data and Technological Innovation to Promote the Digital Transformation of Marine Ranches. In Proceedings of the International Conference on Computer Science and Intelligent Systems (CSIS 2024).

Wu, Y., & Wang, R. (2024). Sustainability-based enterprise supply chain optimization and response under circular economy approach: agile, adaptive and coordinated. Management Decision.

Zhou, Z., Wu, Y., & Xie, Q. (2024). Social responsibility, information technology, and high-quality development of mining enterprise using structural equation modeling (SEM). Resources Policy.

Lakshmikanthan P | Environmental Data Analysis | Best Researcher Award

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Dr. Lakshmikanthan P | Environmental Data Analysis | Best Researcher Award

Council Of Scientific And Industrial Research-fourth Paradigm Institute | India

Dr. P. Lakshmikanthan is a Senior Scientist at CSIR-4PI, Bengaluru (since April 2022), having earlier served as Scientist at NEERI Nagpur (2017–2022), Assistant Professor at Ramaiah University, and a post-doctoral researcher at IISc Bangalore, with prior professional experience in engineering consultancy roles. His research spans greenhouse gas measurement, climate-change assessment and urban health risk modeling, environmental forecasting, sustainability engineering and solid waste management, and ocean modeling. He holds a PhD (IISc, 2015), an M.E. in Environmental Engineering (Anna University, 2010) and a B.E. in Civil Engineering (Anna University, 2006). According to Google Scholar, his work has attracted ~485 citations (Cited by 483) and his h-index is 12. He was awarded the Nawab Bahadur Jung Award for best paper in 2016. Through his publications, modeling and forecasting contributions, and interdisciplinary work on waste, climate, health and environment, he continues to influence research directions in sustainability and risk assessment.

Profiles : Scopus | Google Scholar

Featured Publications

Manjunatha, G. S., Lakshmikanthan, P., Chavan, D., Baghel, D. S., Kumar, S., & Kumar, R. (2024). Detection and extinguishment approaches for municipal solid waste landfill fires: A mini review. Waste Management & Research.

Baghel, D. S., Lakshmikanthan, P., & Kumar, S. (2024). Towards sustainable municipal solid waste management in India: Challenges, trends, and innovations. Journal of Waste Management and Disposal.

Sughosh, P., Lakshmikanthan, P., Vibha, S., & Sivakumar Babu, G. L. (2023). Influence of hydraulic conductivity and moisture retention characteristics of waste on the performance of leachate recirculation system. Indian Geotechnical Journal.

Santhosh, L. G., Lakshmikanthan, P., & Shilpa, D. N. (2022). Quantification of gas emissions from municipal solid waste by biochemical methane potential (BMP) assay method using leachate and wastewater sludge as inoculum. In Indian Geotechnical Conference. Singapore: Springer Nature.

Chavan, D., Lakshmikanthan, P., Manjunatha, G. S., Singh, D., Khati, S., Arya, S., & Kumar, R. (2022). Determination of risk of spontaneous waste ignition and leachate quality for open municipal solid waste dumpsite. Waste Management.

Abdul Hakeem Anwer | Environmental Data Analysis | Best Researcher Award

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Dr. Abdul Hakeem Anwer | Environmental Data Analysis | Best Researcher Award

Qatar University | Qatar

Abdul Hakeem Anwer is a dedicated researcher in the fields of electrocatalytic reduction, nanomaterials, and sustainable energy systems. His career reflects a strong commitment to advancing scientific innovation, particularly in developing efficient solutions for carbon dioxide reduction, wastewater treatment, supercapacitors, and microbial fuel cells. With a proven record of research excellence and international collaboration, he has established himself as a promising scientist in chemistry and materials science.

Professional Profiles

Scopus
Orcid
Google Scholar

Education

He pursued his academic journey at Aligarh Muslim University, India, where he completed his Bachelor’s, Master’s, and Doctorate in Industrial Chemistry and Chemistry. His Ph.D. research focused on bioproduct formation using bioelectrochemical systems, laying the foundation for his later work on advanced nanomaterials and electrocatalysis. His academic training equipped him with strong experimental, analytical, and problem-solving skills to address pressing global challenges in energy and environmental sciences.

Experience

Abdul Hakeem has worked as a Postdoctoral Fellow at Qatar University, where his research centers on electrocatalytic CO2 reduction and advanced nanomaterials, alongside mentoring graduate students. Previously, he served at Yeungnam University, South Korea, collaborating with multidisciplinary teams to push forward energy and environmental projects. Before these international engagements, he contributed as a Senior Research Fellow at IIT Delhi and as a Research Assistant at AMU, where he worked on materials development for microbial fuel cells and energy storage applications. His early industrial experience as a chemist in a food products company gave him practical insights into applied chemistry and quality assessment, broadening his professional expertise.

Research Interests

His research spans electrocatalysis, advanced nanomaterials, CO2 reduction technologies, microbial fuel cells, photocatalysis, and supercapacitors. He is particularly focused on developing hybrid materials, metal-organic frameworks (MOFs), and nanostructures for energy harvesting, wastewater remediation, and pollutant degradation. His scientific contributions highlight innovative pathways to sustainable energy, environmental remediation, and the circular economy, aligning with global needs for clean technologies and green energy solutions.

Awards

Abdul Hakeem’s scientific excellence has been recognized through multiple awards and travel grants. He received support from the European Molecular Biology Laboratory (EMBL) to present at the Global CO2 Challenge in Germany and was granted the Trans-YTF fellowship by the Federation of European Biochemical Societies (FEBS) to participate in an advanced lecture course in Greece. Additionally, he secured a Council of Science and Technology fellowship in India, underscoring his contributions to funded research projects. His achievements reflect both his international standing and his ability to contribute meaningfully to collaborative scientific networks.

Publications

Mashkoor, F., Mashkoor, R., Shoeb, M., Anwer, A.H., Ansari, M.Z., & Jeong, C. (2023). A smart recycling solution: WS₂-halloysite nanocomposite for heavy metals remediation from wastewater and postliminar application in electrochemical supercapacitor for energy storage. Applied Clay Science.

Mahmoud, K.H., Alsubaie, A.S., Anwer, A.H., & Ansari, M.Z. (2023). Comparative Analysis of Perovskite Solar Cells for Obtaining a Higher Efficiency Using a Numerical Approach. Micromachines, 14(6), 1127.

Mashkoor, F., Mashkoor, R., Shoeb, M., Anwer, A.H., Jeong, H., & Jeong, C. (2023). Freestanding WS₂-MWCNT Nanocomposite for Electrochemical Detection of Contaminants of Emerging Concern—Perfluorooctanoic Acid “A Forever Chemical” and Supercapacitor Applications. ACS Sustainable Chemistry & Engineering, 11(32), 11842–11854.

Waris, Anwer, A.H., & Khan, M.Z. (2023). Graphene quantum dots for clean energy solutions. In Graphene Quantum Dots: Biomedical and Environmental Sustainability Applications (pp. 65–88). Elsevier.

Ahmad, N., Bano, D., Jabeen, S., Ahmad, N., Iqbal, A., Waris, Anwer, A.H., & Jeong, C. (2023). Insight into the adsorption thermodynamics, kinetics, and photocatalytic studies of polyaniline/SnS₂ nanocomposite for dye removal. Journal of Hazardous Materials Advances, 9, 100321.

Conclusion

Through his academic journey, international experience, and impactful research, Abdul Hakeem Anwer has emerged as a forward-looking scientist dedicated to solving complex challenges in energy and environmental chemistry. His work on nanomaterials, electrocatalysis, and bioelectrochemical systems continues to inspire sustainable innovation and global collaboration. With a growing portfolio of high-impact publications, book chapters, and a granted patent, he remains committed to advancing clean energy solutions and eco-efficient technologies for the future.

Khaled Alhosani | Environmental Science | Best Researcher Award

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Dr. Khaled Alhosani | Environmental Science | Best Researcher Award

Ajman Municipality and Planning Department | United Arab Emirates

Dr. Khaled Mueen Alhosani is a distinguished leader in environmental governance, sustainable urban development, and public health innovation. As the Executive Director of the Public Health and Environment Sector at the Municipality and Planning Department in Ajman, he has spearheaded transformative reforms, integrated smart infrastructure systems, and advanced Ajman’s vision of becoming a model city for sustainability and climate resilience. With over 17 years of experience in public sector leadership, Dr. Alhosani is widely recognized for his contributions to waste-to-resource innovation, circular economy integration, air quality enhancement, and climate neutrality strategies. His efforts have set new benchmarks in sustainable city management and contributed to Ajman’s recognition on regional and international platforms.

Professional Profile

SCOPUS

ORCID

Education

Dr. Alhosani holds a PhD in Sustainable Waste Management from the University of Bolton, UK, where his doctoral research established a reference framework for empowering public-private partnerships in advancing sustainable waste management within the circular industry economy. He also earned an MSc in Groundwater Engineering and Management from Ajman University, a BSc in Plant Sciences in Arid Regions from United Arab Emirates University, a Diploma in Human Resources from ITAC Institute, and completed a Leadership Transition Programme at INSEAD Business School, France. His academic journey reflects a strong interdisciplinary foundation bridging environmental sciences, resource management, and leadership development.

Experience

Throughout his career, Dr. Alhosani has held pivotal roles shaping public health and environmental policy. As Executive Director of the Public Health and Environment Sector in Ajman, he has led major initiatives in climate neutrality, smart environmental monitoring, and resource-efficient urban infrastructure. Previously, as Director of the Public Health and Environment Department, he developed early sustainability programs and enhanced municipal governance systems. His tenure at the Ministry of Environment & Water saw him lead national plant protection strategies and coordinate agricultural health projects across the GCC. Beyond administrative roles, he has contributed as an adjunct lecturer, research collaborator, and mentor, fostering emerging talent in sustainable development and ISO integration.

Research Interests

Dr. Alhosani’s research is centered on sustainable waste management, climate change mitigation, renewable energy integration, and smart city environmental policies. His published work spans frameworks for public-private partnership empowerment, circular economy models, air quality management, AI-enhanced educational frameworks for sustainability, and strategies to reduce greenhouse gas emissions through landfill waste reduction. His collaborations with international researchers and organizations have driven advancements in floating wind-H2 technology, sustainable education, and innovative waste-to-energy systems.

Awards and Recognition

Dr. Alhosani’s leadership has been recognized through multiple awards and honors, including accolades for his role in transforming Ajman into an environmentally friendly city and his contributions to public sector excellence. He has overseen projects that have achieved significant milestones, such as the 100% reuse of treated wastewater for agriculture, the successful implementation of a single-use plastic bag reduction campaign, and Ajman Parks receiving the Green Flag Award for international sustainability standards. He has also been instrumental in establishing the Ajman Carbon Neutrality Roadmap and aligning educational institutions with the UAE’s Net Zero 2050 strategy. His achievements extend to international forums, where he has represented Ajman at COP28, UN Global Compact workshops, and the Hamid Bin Rashid International Sustainability Award initiatives.

Publications

Alhosani, K.M., Kaied, Y.O., Darwish, A.S., Al-Kayiem, H.H., Farrell, P. (2025). “A Framework for Public-Private Partnerships Empowerment Towards Zero Industrial Waste in the UAE.” Journal of Engineering Science and Technology.

Darwish, A.S., Alhosani, K.M., Al-Kayiem, H.H. (2025). “AI-Enhanced Sustainable Educational Framework for a Greener World.” Journal of Engineering Science and Technology.

Kaied, Y.O., Alhosani, K.M., Darwish, A.S., Farrell, P. (2025). “Air Quality Management Strategic Framework for Future Sustainable Cities.” Journal of Engineering Science and Technology.

Bhutto, Y.A., Pandey, A.K., Saidur, R., Alhosani, K.M. (2025). “Enabling the Thermal Performance of Lauric Acid Phase Change Material Integrated with Multiwall Carbon Nanotubes for Sustainable Thermal Energy Storage Solution.” Journal of Engineering Science and Technology.

Kalidasan, B., Pandey, A., Alhosani, K.M., Darwish, A.S. (2025). “Harnessing Coconut Shell Carbon Micro Particles for Enhanced Optical Absorbance and Sustainable Energy Storage in Organic Phase Change Materials.” Journal of Engineering Science and Technology.

Conclusion

Dr. Khaled Mueen Alhosani is a visionary figure whose expertise bridges policy, research, and innovation to deliver tangible environmental and public health outcomes. His leadership continues to shape Ajman’s sustainable future through ambitious projects in circular economy, climate action, smart city systems, and cross-sectoral collaboration. With an unwavering commitment to knowledge sharing, mentorship, and international partnership building, Dr. Alhosani exemplifies the integration of academic excellence with pragmatic governance. His work serves as a reference point for municipalities and organizations aspiring to achieve net-zero emissions, resilient infrastructure, and globally recognized environmental performance.

Muhammad Tamoor | Data Analysis | Best Researcher Award

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Dr. Muhammad Tamoor | Data Analysis | Best Researcher Award

Shenyang University of Technology | China

Dr. Muhammad Tamoor is a dedicated researcher and academic in the field of Chemical Engineering, with a strong focus on life cycle engineering, sustainability, and advanced computational methods. Currently serving as a Postdoctoral Researcher at Shenyang University of Technology, China, he has made notable contributions to the development of sustainable approaches in materials and energy systems. His academic career reflects a balanced blend of teaching, research, and leadership in international collaborations, positioning him as a promising scholar in sustainable development and green technologies.

Professional Profile

ORCID

Education

Dr. Tamoor earned his Ph.D. in Chemical Engineering from the University of Chinese Academy of Sciences, Beijing, with his research centered on life cycle analysis, biodegradation, and upcycling of plastics. His doctoral work emphasized strategy simulation and life cycle engineering as tools to address global challenges associated with plastic waste and circular economy solutions. Prior to his doctorate, he obtained a Master’s degree in Applied Mathematics from the University of Engineering and Technology, Taxila, where his research explored computational fluid dynamics and heat transfer phenomena. His interdisciplinary educational background, bridging chemical engineering with applied mathematics, provides him with a strong foundation in both theoretical modeling and applied sustainability research.

Experience

Professionally, Dr. Tamoor has held academic and research roles that highlight both his teaching abilities and his research acumen. He began his academic career as a Lecturer at COMSATS University Islamabad, Wah Campus, where he developed expertise in pedagogy and guided undergraduate students in engineering fundamentals. He has also contributed to professional training through specialized courses such as Object-Oriented Programming (C++), which he delivered at the Virtual University of Pakistan. Currently, he is engaged in a Postdoctoral position at Shenyang University of Technology, focusing on lifecycle assessment and techno-economic analysis of advanced concrete systems. His research and teaching experiences demonstrate his versatility and commitment to bridging theoretical knowledge with practical application.

Research Interest

Dr. Tamoor’s primary research interests revolve around sustainability, green process engineering, and life cycle assessment of industrial systems. He has actively contributed to projects examining geopolymer concrete, renewable energy infrastructures, and microbial biodegradation of plastics. His work also extends into computational domains, particularly computational fluid dynamics and population balance models, with applications in large-scale industrial processes such as bubble column reactors. In addition, he has acted as Guest Editor for the journals Frontiers in Manufacturing Technology and Frontiers in Sustainability, where he launched a special research topic on the role of life cycle engineering in developing a circular economy for plastics. His interdisciplinary focus reflects a strong vision for integrating environmental policy, techno-economic considerations, and innovative engineering solutions.

Awards

Throughout his career, Dr. Tamoor has been recognized for academic excellence and research achievements. He received the prestigious “Excellent International Graduate Award” from the Institute of Process Engineering, Chinese Academy of Sciences, acknowledging his outstanding scholarly contributions. He was also awarded the “Chinese Government Scholarship” by the Chinese Scholarship Council, reflecting his commitment to academic excellence at the international level. In addition, he has been honored by national initiatives in Pakistan, including recognition under the Prime Minister’s Laptop Scheme and certificates for participation in innovative research and computational sciences. These accolades highlight both his academic dedication and his potential as a global researcher in sustainability and engineering.

Publications

Tamoor, M., Xing, J. (2025). PET life cycle analysis development for environmental sustainability: global scenario. Environment, Development and Sustainability.

Tamoor, M., Samak, N.A., Xing, J. (2023). Life cycle assessment and policy for the improvement of net-zero emissions in China. Cleaner Engineering and Technology.

Tamoor, M., Samak, N.A., Xing, J. (2023). Pakistan toward Achieving Net-Zero Emissions: Policy and Roadmap. ACS Sustainable Chemistry & Engineering.

Tamoor, M., Samak, N.A., Yang, M., Xing, J. (2022). The Cradle-to-Cradle Life Cycle Assessment of Polyethylene terephthalate: Environmental Perspective. Molecules.

Tamoor, M., Kamran, M., Rehman, S., Farooq, A., Khan, R., Lee, J.R., Shin, D.Y. (2021). Modelling of Applied Magnetic Field and Thermal Radiations Due to the Stretching of Cylinder. Processes.

Conclusion

Dr. Muhammad Tamoor stands out as a dynamic and versatile researcher whose expertise bridges chemical engineering, sustainability, and computational modeling. His contributions to life cycle assessment, plastic biodegradation, renewable energy infrastructures, and sustainable concrete solutions reflect his commitment to addressing pressing global challenges. With his international research collaborations, editorial leadership, and recognized excellence in academia, Dr. Tamoor exemplifies the role of a modern scientist working toward sustainable technological advancements. His career trajectory indicates not only his capacity for innovation but also his dedication to nurturing interdisciplinary approaches for future generations of engineering and sustainability researchers.