Seyed Hamidreza Ghaffar – Sustainable Development – Outstanding Scientist Award

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Seyed Hamidreza Ghaffar - Sustainable Development - Outstanding Scientist Award

Head of Engineering Department at University of Birmingham

Seyed Hamidreza Ghaffar is an Associate Professor in Civil Engineering and Head of the Engineering Department at the University of Birmingham Dubai. His expertise bridges academia and industry, with leadership in research on sustainable construction, 3D printing, and low-carbon materials. He founded the Additive Manufacturing Technology in Construction (AMTC) centre, driving innovation in eco-friendly building practices. Over his career, he has managed research grants exceeding £2 million and authored more than 90 publications, advancing the global conversation on circular economy principles in construction.

Professional Profile

Google Scholar

Education

Seyed Ghaffar holds a PhD in Civil Engineering Material Sciences from Brunel University of London, supported by an Industrial Cooperative Awards in Science & Technology (CASE) sponsorship. He also earned a Bachelor of Engineering in Civil Engineering with First Class Honours from the same institution. His academic journey provided a strong foundation in materials science, structural engineering, and sustainable construction, enabling him to merge theoretical understanding with practical applications in engineering projects and academic leadership roles worldwide.

Professional Experience

With a career spanning roles from Postdoctoral Research Associate to Associate Professor, Seyed Ghaffar has contributed significantly to academia and industry. He led the Engineering Department in Dubai, previously serving at Brunel University London in various academic and administrative capacities. His expertise extends to programme development, industry partnerships, and research supervision. He has served as an expert evaluator for European Commission projects, reviewer for funding bodies, and editor for leading engineering journals, reinforcing his influence in the global engineering community.

Research Interest

Research interests centre on sustainable construction materials, additive manufacturing, and the circular economy. Seyed Ghaffar focuses on developing low-carbon technologies for new builds and retrofitting, recycling construction and demolition waste, and advancing 3D printing applications in civil engineering. His work also explores integrating bio-based materials, enhancing durability, and optimising concrete for sustainability. Through interdisciplinary collaborations, he aims to transform construction practices into more resource-efficient, environmentally responsible processes, aligning with global sustainability goals.

Award And Honor

Recognised for his academic and research contributions, Seyed Ghaffar has received multiple awards, including the Award for Excellence and Teaching Support of the Year from Brunel University London. His early career achievements earned him the Institute of Structural Engineers Prize and Graham Hawkes Award for best final-year project. His professional honours include Fellowship of the Institution of Civil Engineers, Fellowship of the Higher Education Academy, and membership in the Institute of Concrete Technology, highlighting his respected standing in engineering circles.

Research Skill

Seyed Ghaffar’s skills span advanced material characterisation, mix design optimisation for 3D printing, and life cycle analysis of construction materials. Proficient in both experimental and computational techniques, he applies methodologies such as rheology testing, durability assessment, and finite element modelling. His research leadership involves securing and managing multi-partner grants, mentoring PhD candidates, and delivering impactful publications. This diverse expertise enables him to translate scientific innovation into practical engineering solutions that address environmental and industry challenges.

Publications

With over 90 peer-reviewed publications, Seyed Ghaffar’s work appears in high-impact journals such as Construction and Building Materials and Journal of Cleaner Production. His research covers topics like bio-based composites, recycled aggregates, and digital fabrication in construction. He has co-authored influential book chapters and edited the volume Innovation in Construction, showcasing advancements in industry practices. Many of his papers result from collaborations with graduate students, reflecting his dedication to fostering academic growth and producing high-quality, industry-relevant research.

Title: Pathways to circular construction: An integrated management of construction and demolition waste for resource recovery
Authors: S.H. Ghaffar, M. Burnman, N. Braimah
Journal: Journal of Cleaner Production, 244, 2020

Title: Additive manufacturing technology and its implementation in construction as an eco-innovative solution
Authors: S.H. Ghaffar
Journal: Automation in Construction, 93, 2018

Title: Structural analysis for lignin characteristics in biomass straw
Authors: S.H. Ghaffar, M. Fan
Journal: Biomass and Bioenergy, 57, 2013

Title: Lignin in straw and its applications as an adhesive
Authors: S.H. Ghaffar, M. Fan
Journal: International Journal of Adhesion and Adhesives, 48, 2014

Title: Fracture and impact properties of short discrete jute fibre-reinforced cementitious composites
Authors: X. Zhou, S.H. Ghaffar, W. Dong, O. Oladiran, M. Fan
Journal: Materials & Design, 49, 2013

Conclusion

Seyed Ghaffar’s career reflects a blend of academic excellence, innovative research, and professional leadership in civil engineering. Through pioneering work in sustainable construction and additive manufacturing, he has shaped industry practices and influenced policy directions. His contributions extend beyond research, encompassing teaching, mentoring, and international collaboration. By championing circular economy principles and eco-innovative solutions, he continues to inspire transformative change in the built environment, positioning himself as a leading figure in global engineering innovation.

Luigi Montano | Environmental Risk Assessment | Best Researcher Award

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Assoc. Prof. Dr. Luigi Montano | Environmental Risk Assessment | Best Researcher Award

MD, PhD at Local Health Authority Salerno, Italy

Dr. Luigi Montano, MD, PhD, is an accomplished UroAndrologist and researcher with a national qualification as Associate Professor in Urology. His multidisciplinary expertise spans environmental pathology, reproductive health, and lifestyle medicine. As the creator and coordinator of the EcoFoodFertility project, he pioneers research connecting environmental exposure, lifestyle, and fertility—particularly among younger generations in high-risk areas. Dr. Montano has a robust scientific publication record, active profiles on Google Scholar, Scopus, and Web of Science, and has received multiple awards for his contributions. His leadership roles, including serving as Past President of the Italian Society of Human Reproduction (SIRU), reflect his influence in the field. He is also deeply engaged in public health awareness and preventive initiatives, bridging science and community. With his impactful research, academic distinction, and commitment to environmental and human health, Dr. Montano stands out as a highly deserving candidate for the Best Researcher Award.

Professional Profile 

Education🎓

Dr. Luigi Montano has pursued a distinguished academic path grounded in medicine, biology, and environmental health. He earned his Doctor of Medicine (MD) degree, providing a strong clinical foundation in Urology and Andrology. Driven by a passion for scientific inquiry, he further completed a PhD in Evolutionary Biology and Ecology, enriching his understanding of the complex relationships between living organisms and their environments. His education bridges clinical medicine with ecological and lifestyle sciences, making him uniquely qualified to explore the impact of environmental factors on human reproductive health. Additionally, Dr. Montano holds a National Academic Qualification as Associate Professor in Urology in Italy, reflecting his academic excellence and recognition by the higher education system. His interdisciplinary educational background enables him to lead cutting-edge projects like EcoFoodFertility, where medical knowledge meets environmental science to address global health concerns. This rich academic journey forms the backbone of his research and leadership contributions.

Professional Experience📝

Dr. Luigi Montano has extensive professional experience that spans clinical practice, academic leadership, and groundbreaking research. He currently serves as a UroAndrologist at the Local Health Authority (ASL Salerno), where he applies his clinical expertise in reproductive and men’s health. He is the Past President of the Italian Society of Human Reproduction (SIRU), demonstrating his leadership and influence within the medical and scientific community. Dr. Montano is also the creator and coordinator of the EcoFoodFertility project, a multidisciplinary research initiative that investigates the links between environmental pollution, dietary habits, and reproductive health. His work integrates public health, environmental sciences, and preventive medicine, with a focus on younger populations in high-risk areas. He is actively involved in national and international conferences as a keynote speaker and has received numerous awards for his contributions. His professional career reflects a rare blend of clinical excellence, research innovation, and community-driven impact.

Research Interest🔎

Dr. Luigi Montano’s research interests lie at the intersection of environmental health, reproductive medicine, and lifestyle science. He is deeply focused on understanding how environmental pollutants, particularly in high-risk industrial areas, affect male fertility and overall reproductive health. His work emphasizes the importance of primary prevention, using biomarkers and human semen quality as early indicators of environmental impact. Through the EcoFoodFertility project, Dr. Montano investigates how diet, lifestyle, and ecological exposure influence epigenetic changes and reproductive outcomes. His innovative research also explores the role of the human exposome—the totality of environmental exposures—in shaping public health, particularly in adolescents and young adults. Additionally, he is interested in developing new models of environmental risk assessment that integrate clinical, molecular, and ecological data. Dr. Montano’s work bridges science and public awareness, aiming to influence both health policy and community behavior through evidence-based research focused on environmental sustainability and human well-being.

Award and Honor🏆

Dr. Luigi Montano has received numerous awards and honors in recognition of his outstanding contributions to medical research, environmental health, and public health advocacy. His pioneering work on the EcoFoodFertility project has earned national and international acclaim for its innovative approach to linking environmental pollution with human reproductive health. He has been honored with scientific excellence awards and invited as a keynote speaker at prestigious national and international conferences, underlining the impact of his research on both academic and policy-making communities. As the Past President of the Italian Society of Human Reproduction (SIRU), he was recognized for his leadership and commitment to advancing reproductive science. Dr. Montano has also received accolades for his community engagement, particularly for involving young populations in environmental awareness and prevention programs. These awards reflect his reputation as a visionary researcher dedicated to translating science into meaningful action for public and environmental health.

Research Skill🔬

Dr. Luigi Montano possesses a diverse and advanced set of research skills that reflect his multidisciplinary expertise in medicine, environmental science, and reproductive health. He is highly proficient in clinical research methodologies, including patient data analysis, epidemiological studies, and biomarker identification—particularly using semen quality as an early indicator of environmental exposure. His leadership in the EcoFoodFertility project showcases his ability to design and manage multicenter, multidisciplinary studies that integrate molecular biology, lifestyle assessment, and ecological risk mapping. Dr. Montano is skilled in applying translational research approaches, turning scientific findings into actionable strategies for public health and prevention. His experience includes coordinating cross-institutional collaborations, securing research funding, publishing in peer-reviewed journals, and presenting findings at global forums. Additionally, he effectively employs community-based participatory research techniques, engaging local populations—especially youth—in data collection and awareness. These skills underline his capacity to conduct impactful research that bridges science, policy, and social relevance.

Conclusion💡

Dr. Luigi Montano exemplifies the qualities of a Best Researcher Award recipient through his multidisciplinary expertise, leadership in community-engaged science, significant research output, and commitment to addressing critical environmental and public health challenges. His work merges scientific rigor with social responsibility, making him a strong and deserving nominee for the award.

Publications Top Noted✍

  • Title: Microplastics in the environment: intake through the food web, human exposure and toxicological effects
    Authors: C. Pironti, M. Ricciardi, O. Motta, Y. Miele, A. Proto, L. Montano
    Year: 2021
    Citations: 296

  • Title: Endocrine-disrupting compounds: An overview on their occurrence in the aquatic environment and human exposure
    Authors: C. Pironti, M. Ricciardi, A. Proto, P.M. Bianco, L. Montano, O. Motta
    Year: 2021
    Citations: 228

  • Title: Polychlorinated biphenyls (PCBs) in the environment: occupational and exposure events, effects on human health and fertility
    Authors: L. Montano, C. Pironti, G. Pinto, M. Ricciardi, A. Buono, C. Brogna, M. Venier, et al.
    Year: 2022
    Citations: 206

  • Title: First evidence of microplastics in human urine, a preliminary study of intake in the human body
    Authors: C. Pironti, V. Notarstefano, M. Ricciardi, O. Motta, E. Giorgini, L. Montano
    Year: 2022
    Citations: 194

  • Title: Raman Microspectroscopy evidence of microplastics in human semen
    Authors: L. Montano, E. Giorgini, V. Notarstefano, T. Notari, M. Ricciardi, M. Piscopo, et al.
    Year: 2023
    Citations: 137

  • Title: Microplastics in the aquatic environment: occurrence, persistence, analysis, and human exposure
    Authors: M. Ricciardi, C. Pironti, O. Motta, Y. Miele, A. Proto, L. Montano
    Year: 2021
    Citations: 102

  • Title: Environmental pollutants: genetic damage and epigenetic changes in male germ cells
    Authors: C. Vecoli, L. Montano, M.G. Andreassi
    Year: 2016
    Citations: 86

  • Title: Discovery of the involvement in DNA oxidative damage of human sperm nuclear basic proteins of healthy young men living in polluted areas
    Authors: G. Lettieri, G. D’Agostino, E. Mele, C. Cardito, R. Esposito, A. Cimmino, et al.
    Year: 2020
    Citations: 84

  • Title: Human semen as an early, sensitive biomarker of highly polluted living environment in healthy men: A pilot biomonitoring study on trace elements in blood and semen and their correlation
    Authors: P. Bergamo, M.G. Volpe, S. Lorenzetti, A. Mantovani, T. Notari, E. Cocca, et al.
    Year: 2016
    Citations: 76

  • Title: Effects of a lifestyle change intervention on semen quality in healthy young men living in highly polluted areas in Italy: the FASt randomized controlled trial
    Authors: L. Montano, E. Ceretti, F. Donato, P. Bergamo, C. Zani, G.C.V. Viola, T. Notari, et al.
    Year: 2022
    Citations: 71

 

YUNUS AHMED | Environmental Remediation | Best Researcher Award

Published on by Civil Engineering

Yunus Ahmed - Environmental Remediation - Best Researcher Award

Chittagong University of Engineering and Technology - Bangladesh

AUTHOR PROFILE

SCOPUS

SUMMARY

Dr. Yunus Ahmed is a distinguished professor in Chemical Engineering at CUET, Bangladesh, with expertise in environmental science and engineering. He focuses on water treatment, antimicrobial resistance, and AI-based remediation technologies. His impactful academic and research contributions span over a decade, marked by high-impact publications, international collaborations, and leadership roles in research development. Known for innovation in nanotechnology applications, Dr. Ahmed also supervises graduate research and actively participates in environmental policy dialogues through global conferences. His dedication to interdisciplinary science and real-world environmental solutions has positioned him as a prominent figure in advanced chemical and environmental engineering.

EDUCATION

Dr. Yunus Ahmed holds a PhD in Chemical Engineering from The University of Queensland, Australia, with a research focus on removing antibiotic-resistant bacteria and micropollutants using photo-Fenton processes. He earned two Master’s degrees: one from the National University of Malaysia in Chemical and Process Engineering and another from Islamic University, Bangladesh, in Applied Chemistry and Chemical Engineering. He also holds a Bachelor of Science in the same field. His academic background integrates chemical, environmental, and process engineering, providing a strong foundation for his multidisciplinary research in environmental remediation and advanced water treatment systems.

PROFESSIONAL EXPERIENCE

Dr. Ahmed’s career spans academic and industrial roles. He is currently a Professor at CUET’s Department of Chemistry (Chemical Engineering Branch). His earlier roles include Associate and Assistant Professor positions at CUET and research scholar experience at the Australian Centre for Water and Environmental Biotechnology (UQ). Additionally, he served as Secretary of CUET’s Bureau of Research, Testing & Consultation. He also held industrial roles at SGS Bangladesh. His responsibilities include research supervision, curriculum development, and committee leadership. His experience bridges teaching, research, policy advising, and technical consultancy in environmental chemistry and engineering.

RESEARCH INTEREST

Dr. Ahmed’s research interests lie at the interface of chemistry, environmental science, and engineering. His main focus areas include water disinfection, antimicrobial resistance, nanomaterial development, and advanced oxidation processes. He also explores artificial intelligence applications in environmental remediation. His work addresses pressing environmental issues like emerging micropollutants and urban wastewater treatment. Dr. Ahmed leads innovative projects developing nano-photocatalysts and solar-based technologies for pollutant degradation. His interdisciplinary interests align closely with global sustainability goals, making his work both scientifically impactful and socially relevant in tackling water pollution and antibiotic resistance.

AWARDS AND HONORS

Dr. Yunus Ahmed has received numerous prestigious awards recognizing his academic and research excellence. He was granted the Research Training Program (RTP) and Top-Up Scholarships by The University of Queensland. His earlier accolades include the National Science and ICT Fellowship in Bangladesh and several university-level research fellowships in Malaysia and Bangladesh. These awards reflect his consistent scholarly output and dedication to cutting-edge research. His work has been recognized both nationally and internationally, affirming his leadership in water treatment technologies and environmental protection strategies, particularly in addressing contemporary challenges such as antimicrobial resistance.

RESEARCH SKILL

Dr. Ahmed possesses a diverse and advanced research skill set. He is proficient in techniques like UV-Vis, FTIR, AAS, GC-MS/MS, LC-MS/MS, XPS, AFM, and PCR-based methods. He is skilled in computational tools such as Python, Origin, GraphPad Prism, and ChemDraw. His analytical expertise extends to nano-material synthesis, photocatalysis, and environmental toxicology. He integrates experimental design with AI and machine learning to optimize treatment processes. Dr. Ahmed also has hands-on experience with electrochemical sensors and simulation-based photocatalysis. His ability to combine laboratory and data-driven approaches makes his research both robust and innovative.

PUBLICATIONS

Title: MXenes: Are They Ready for Direct Air Capture of CO₂?
Authors: Konok Chandra Bhowmik, Md Arafat Rahman, Yunus Ahmed, Tasmia Binte Hai
Journal: [Not specified] (Possibly under review or not listed)

Title: Experimental and AI-driven enhancements in gas-phase photocatalytic CO₂ conversion over synthesized highly ordered anodic TiO₂ nanotubes
Authors: Md Arif Hossen, Md Munirul Hasan, Yunus Ahmed, Nurashikin Yaacof, Kah Hon Leong
Journal: Energy Conversion and Management (2025)

Title: Optimizing photocatalytic dye degradation: A machine learning and metaheuristic approach for predicting methylene blue in contaminated water
Authors: Yunus Ahmed, Keya Rani Dutta, Sharmin Nahar Chowdhury Nepu, Hamad AlMohamadi, Parul Akhtar
Journal: Results in Engineering (2025)

CONCLUSION

Dr. Yunus Ahmed exemplifies a modern scientific leader whose research bridges environmental chemistry, engineering, and digital innovation. Through academic excellence, interdisciplinary research, and international collaboration, he addresses global environmental challenges such as antibiotic resistance and water pollution. His contributions extend beyond academia through policy engagement, student mentorship, and global conference participation. Dr. Ahmed continues to shape the future of sustainable water treatment and environmental health through high-impact publications, strategic research initiatives, and technological innovations in nanoscience and AI. His career reflects a commitment to impactful science with practical societal applications.

Sheriff Ceesay | Climate Change | Best Researcher Award

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Dr. Sheriff Ceesay | Climate Change | Best Researcher Award

PhD at West African Science Service Center on Climate Change and Adapted Land Use (WASCAL) ​Cheikh Anta Diop University, Dakar, Gambia

Sheriff Ceesay is a distinguished economist and academic with a strong focus on climate change economics and policy. Currently a PhD candidate at the University of Cheikh Anta Diop, Dakar, he specializes in Climate Change Economics under the West African Science Center for Climate Change and Adapted Land Use (WASCAL) program. He has held various academic and leadership roles, contributing significantly to environmental and economic research. As a lecturer in economics at The Gambia College, he plays a pivotal role in shaping future economists while actively engaging in research, publications, and conferences related to climate adaptation and agricultural economics.

Profile

ORCID

EDUCATION

Sheriff Ceesay has an extensive academic background in economics and education. He earned a Postgraduate Certificate in Health Research Ethics and Methodology with Distinction from the University of The Gambia (2023-2024). He is currently in the final year of his PhD in Climate Change Economics at the University of Cheikh Anta Diop (2021-2025). He obtained an MSc in Economics with Distinction (2017-2019) and a BSc in Economics with a Minor in Mathematics, graduating Cum Laude (2013-2017), both from the University of The Gambia. Additionally, he holds a Higher Teachers’ Certificate from The Gambia College and multiple certifications in research ethics, public health, and information technology.

EXPERIENCE

Sheriff Ceesay has over a decade of experience in teaching and research. He began his career as a teacher at Kerr Cherno Upper and Senior Secondary School (2009-2013) and later at St. Vincent Senior Secondary School (2015-2017). Since 2018, he has been a lecturer in economics at The Gambia College and served as an adjunct lecturer in microeconomics and macroeconomics at the University of The Gambia (2021). His administrative roles include Acting Director of the Directorate of Research and Development at The Gambia College and Head of the Commerce Department. His leadership extends to environmental advocacy as the Founder and Coordinator of the Green Up Gambia College Initiative.

RESEARCH INTERESTS

His research interests lie at the intersection of climate change economics, agricultural adaptation strategies, and environmental sustainability. He has contributed significantly to research on climate risk perception and adaptation among smallholder farmers, as well as bioethics in African socio-cultural contexts. Sheriff actively participates in international conferences, presenting papers and posters on topics such as climate services, early warning systems, and sustainable agriculture.

AWARDS

Sheriff Ceesay has received several accolades for his contributions to research and education. He has been recognized for his excellence in teaching and research ethics training. He has also received multiple certificates from renowned institutions, including the ECOWAS Training on Research Methodologies, the UNESCO Leadership Skills Training, and the CITI Program certifications in bioethics, public health research, and data science research ethics.

PUBLICATIONS

Ceesay, S. (2023). “Gambian Farmers’ Perception of and Access to Climate Services on Early Warning and Adaptation.” Tropentag Conference Proceedings.

Ceesay, S., & Co-author. (2023). “Does Religion Hamper Coroner’s Autopsy Examination? An Evaluation from The Gambia.” 17th World Congress of Bioethics.

Ceesay, S. (2024). “Climate Risk Perception and Adaptation Strategies of Smallholder Farmers in The Gambia.” ICAE Conference Proceedings.

Ceesay, S. (2024). “Farmers’ Perception of the Efficacy of Climate Risk Adaptation Strategies in The Gambia.” Tropentag Conference Proceedings.

Ceesay, S. (2024). “Translating and Adapting Bioethical Principles in the African Socio-Cultural Contexts: An Integrative Review.” 17th World Congress of Bioethics.

Ceesay, S. (2024). “The Efficacy of Adaptation and Mitigation Strategies for Climate Risks: A Gambian Perspective.” AgriGHG Symposium Proceedings.

Ceesay, S. (2024). “Big Data and Data Science Research Ethics in Climate Economics.” Thuenen Working Paper.

CONCLUSION

With a strong academic background, extensive research experience, and active participation in global conferences, Sheriff Ceesay is a highly deserving candidate for the Best Researcher Award. His contributions to climate change adaptation, bioethics, and economic research have had a profound impact on policy and practice. His leadership in academia and dedication to research ethics further solidify his position as an outstanding scholar in his field.

Gaurav Priyadarshi | Environmental Engineering | Best Researcher Award

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Mr Gaurav Priyadarshi | Environmental Engineering | Best Researcher Award

Research Scholar, NIT ROURKELA, India

Gaurav Priyadarshi is a dedicated researcher and Ph.D. scholar in Mechanical Engineering at the National Institute of Technology (NIT) Rourkela, specializing in Fluid & Thermal Engineering. With a strong academic foundation, including an M.E. from BIT Mesra and a B.E. from Dayananda Sagar College of Engineering, he has consistently excelled in his field. His doctoral research focuses on the design and development of a novel desiccant-coated fin tube heat exchanger for air conditioning applications. Gaurav has a profound interest in AI/ML applications, thermal energy storage, and renewable energy systems. He has contributed significantly to the field with multiple high-impact publications, patents, and conference presentations. Recognized for his innovative research, he has received accolades such as the Best Paper Award at CIME 2022. Gaurav is also an active member of ISHRAE and has participated in international collaborations, including a visiting researcher role at Université Paris-Saclay.

Professional Profile

Google Scholar

Orcid

Scopus

Education 🎓

  • Ph.D. in Mechanical Engineering (2024, NIT Rourkela): Specialization in Fluid & Thermal Engineering, focusing on desiccant-coated heat exchangers for air conditioning. CGPA: 9.17.
  • M.E. in Mechanical Engineering (2018, BIT Mesra): Specialization in Fluid & Thermal Engineering. Percentage: 81.9%.
  • B.E. in Mechanical Engineering (2015, Dayananda Sagar College of Engineering): Percentage: 66.2%.
  • XII (HSC) (2011, Surendranath Centenary School): Subjects: Physics, Chemistry, Mathematics. Percentage: 71.2%.
  • X (SSC) (2009, DAV Public School): Major Subjects: Mathematics, Science, Social Studies. Percentage: 84.6%.
    Gaurav’s academic journey reflects a strong foundation in engineering, with a focus on thermal systems, AI/ML, and renewable energy technologies.

Experience 💼

  • R&D Engineer and Project In-charge (Oct 2024 – Present): New Leaf Dynamic Technologies, Greater Noida, India. Leading innovative projects in thermal energy systems.
  • Visiting Doctoral Researcher (Jan-Feb 2024): Université Paris-Saclay, France. Worked on AI/ML models for refrigeration systems.
  • Teaching Assistant (2016-2018): Conducted labs for I.C. Engines, Strength of Materials, Heat Transfer, and Fluid Mechanics during M.E. and Ph.D.
  • Research Assistant (2019-2024): MHRD-funded research at NIT Rourkela, focusing on desiccant-coated heat exchangers and AI/ML applications.
    Gaurav’s professional experience spans research, teaching, and industry, with a strong emphasis on thermal systems, AI/ML, and sustainable energy solutions.

Awards and Honors 🏆

  • Best Paper Award at CIME 2022 for research on desiccant-coated heat exchangers.
  • Visiting Researcher at Université Paris-Saclay, France (2024).
  • GATE Qualified (2016): 94.51 percentile with a score of 513.
  • Research Assistantship from MHRD, Govt. of India (2019-2024).
  • Teaching Assistantship from MHRD, Govt. of India (2016-2018).
  • K-12 Student Activity Chair at ISHRAE Bhubaneswar (2022-2023).
    Gaurav’s achievements highlight his excellence in research, innovation, and leadership in the field of thermal engineering and AI/ML applications.

Research Focus 🔍

Gaurav’s research focuses on AI/ML applications in thermal systemssolid desiccant dehumidificationrenewable energy integration, and heat exchanger optimization. His work includes:

  • Designing novel desiccant-coated fin tube heat exchangers for air conditioning.
  • Thermal energy storage using phase change materials (PCMs).
  • AI/ML-driven performance prediction and optimization of thermal systems.
  • Solar-driven thermal systems and indoor air quality enhancement.
  • Carbon capture and heat pump technologies.
    His interdisciplinary approach combines experimental, numerical, and AI/ML techniques to advance sustainable energy solutions.

Publication Top Notes 📚

  1. Experimental Study of Novel Desiccant Coated Energy Exchanger Employing PCM – Silica Gel Working Pair for Air Conditioning and Thermal Energy Storage Application.
  2. Experimental and Numerical Studies on Moisture Adsorption/Desorption Characteristics Across the Circular Fin Tube Desiccant Coated Heat Exchanger.
  3. Parametric Investigation and Optimization of Phase Change Material-Based Thermal Energy Storage Integrated Desiccant Coated Energy Exchanger Through Physics Informed Neural Networks.
  4. Desiccant Coated Fin Tube Energy Exchanger Design Optimization Implementing KNN-ML Tool and Adsorption/Desorption Kinetics Analysis Using Finite Difference Based Transient Model.
  5. Performance Potentiality Analysis of Desiccant Coated Energy Exchanger for M− Cooler Based Air Conditioning and Solar Driven Drying Systems.
  6. Design and Performance Prediction of Desiccant Coated Heat Exchanger Using ANFIS–AI Tool and Dynamic Model.
  7. Implementation of Adaptive Neuro-Fuzzy Inference System in Design and Process Optimization of Latent Heat Storage System.
  8. Performance Characteristics Assessment of Hollow Fiber Membrane-Based Liquid Desiccant Dehumidifier for Drying Application.
  9. A Novel Similarity Solution Approach Based Thermal Performance Prediction and Environmental Analysis of Evacuated U-Tube Solar Collector Employing Different Mono/Hybrid Nanofluids.
  10. Evaluation of Thermal Kinetics of Microencapsulated PCM for Low-Temperature Thermal Energy Storage Application.
  11. Application of Artificial Intelligence Models for Assessing the Performance of Closed Vertical Refrigerated Display Cabinet.
  12. Heat Exchanger Design (Indian Patent).

Conclusion 🌟

Gaurav Priyadarshi is a highly accomplished researcher with expertise in thermal systems, AI/ML, and renewable energy. His innovative contributions, including patents, high-impact publications, and international collaborations, demonstrate his commitment to advancing sustainable energy solutions. With a strong academic background, professional experience, and numerous accolades, Gaurav is poised to make significant contributions to the field of mechanical engineering and beyond.

Zhang Xihua | Environmental Engineering | Best Researcher Award

Published on by Civil Engineering

Assoc. Prof. Dr Zhang Xihua | Environmental Engineering | Best Researcher Award

Associate Professor at Shanghai Polytechnic University, china

Dr. Xihua Zhang is a distinguished researcher affiliated with Shanghai Polytechnic University. With an extensive background in materials science and environmental engineering, Dr. Zhang has significantly contributed to the field of lithium-ion battery recycling and sustainable resource management. His research has been instrumental in advancing mechanochemical methods for metal recovery, selective lithium extraction, and sustainable recycling practices. Over the years, he has published numerous high-impact journal articles, demonstrating his expertise and commitment to addressing critical challenges in resource sustainability.

profile

ORCID

Scopus

Education

Dr. Zhang has a strong academic foundation in materials science and environmental technology. His educational background has equipped him with advanced knowledge in chemical engineering, sustainable material processing, and waste management, which have been pivotal in shaping his research career. Throughout his academic journey, he has developed expertise in mechanochemical and hydrometallurgical processes, focusing on enhancing the efficiency of metal extraction from spent lithium-ion batteries.

Experience

With years of experience in academia and research, Dr. Zhang has collaborated with several leading institutions and experts in the field. His work spans interdisciplinary domains, including energy storage materials, circular economy practices, and green chemistry. He has served as a reviewer for multiple high-impact journals and has contributed to the development of innovative recycling technologies. His research findings have been widely cited, reflecting his influence in advancing environmentally friendly metal recovery processes.

Research Interests

Dr. Zhang’s research interests primarily focus on sustainable materials processing and recycling technologies. His work includes mechanochemical methods for extracting valuable metals from spent lithium-ion batteries, selective recovery of lithium, and environmentally friendly leaching processes. He is also interested in exploring the role of nickel recycling in new energy vehicle industries and the optimization of closed-loop battery recycling methods. His contributions aim to enhance the efficiency and sustainability of battery recycling to support the growing demand for energy storage materials.

Awards

Dr. Zhang has been recognized for his contributions to battery recycling and sustainable resource management. His research has received accolades from academic and industrial communities, reflecting the significance of his work in advancing environmental sustainability. His awards and honors highlight his dedication to pioneering innovative and efficient recycling techniques that align with global efforts to minimize electronic waste and promote a circular economy.

Publication Top Notes

“Mechanism and technological method of leaching metals from waste lithium-ion batteries by synergistic action of natural organic reductants and mechanochemical method” – Published in Separation and Purification Technology, Jan 2025. (Cited: 1)

“Material flow analysis on the critical resources from spent power lithium-ion batteries under the framework of China’s recycling policies” – Published in Waste Management, Nov 2023. (Cited: 6)

“A mechanochemical method for one-step leaching of metals from spent LIBs” – Published in Waste Management, Apr 2023. (Cited: 12)

“Recovery of Li and Co from Spent Li-Ion Batteries by Mechanochemical Integration with NH4Cl” – Published in ACS Sustainable Chemistry & Engineering, May 2022. (Cited: 11)

“Selective Recovery of Lithium from Spent Lithium-ion Batteries Synergized by Carbon and Sulfur Elements” – Published in Acta Chimica Sinica, Aug 2021. (Cited: 5)

“The role of nickel recycling from nickel-bearing batteries on alleviating demand-supply gap in China’s industry of new energy vehicles” – Published in Resources, Conservation and Recycling, Jul 2021. (Cited: 36)

“Recycling of LiNi1/3Co1/3Mn1/3O2 cathode materials from spent lithium-ion batteries using mechanochemical activation and solid-state sintering” – Published in Waste Management, Feb 2019. (Cited: 144)

Conclusion

With a strong publication record, high citation impact, and groundbreaking research in sustainable battery recycling, Dr. Xihua Zhang is a highly deserving candidate for the Best Researcher Award. His work not only advances scientific knowledge but also plays a pivotal role in promoting sustainable and environmentally responsible practices in energy storage and recycling industries

Tao Zhu | Air Pollution Control | Best Researcher Award China

Published on by Civil Engineering

Prof Tao Zhu | Air pollution control | Best Researcher Award

Director, University of Mining & Technology-Beijing, China

Tao Zhu, Ph.D., is a distinguished professor and director of the Institute of Atmospheric Environment Management and Pollution Control at China University of Mining and Technology (Beijing). He has authored over 100 research papers, including more than 30 SCI-indexed publications in renowned journals such as Environmental Science & Technology and Journal of Hazardous Materials. Dr. Zhu has applied for 30 patents in the past five years, with over 10 authorized and six successfully implemented in industrial applications. He has also published eight books, including four monographs. His contributions to air pollution control include the development of plasma-based treatment technologies and the co-processing of PM2.5 and heavy metals. He has led numerous national and industrial projects, generating significant economic and environmental impacts. His work in ultra-high-temperature plasma gasification and hazardous waste treatment has been widely recognized.

PROFESSIONAL PROFILE

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EDUCATION

🎓 Ph.D. in Environmental Engineering – China University of Mining and Technology (Beijing)
🎓 Master’s in Environmental Science – China University of Mining and Technology (Beijing)
🎓 Bachelor’s in Chemical Engineering – China University of Mining and Technology (Beijing)

Dr. Tao Zhu’s academic journey has been marked by a focus on air pollution control, plasma catalysis, and sustainable environmental technologies. His doctoral research contributed to the advancement of plasma-assisted air pollution mitigation techniques. Through rigorous academic training, he developed expertise in non-thermal plasma technology, single-atom catalysis, and volatile organic compound (VOC) decomposition. His educational background laid the foundation for his groundbreaking work in environmental protection and atmospheric pollution control.

EXPERIENCE

👨‍🏫 Professor & Director – Institute of Atmospheric Environment Management and Pollution Control, CUMT (Beijing)
🔬 Principal Investigator – 4 National Vertical Projects, 15 Ministry-Level Projects, 20+ Industrial Projects
🛠️ Technology Developer – Developed three-stage plasma treatment technology for industrial air pollution control
🌍 Environmental Consultant – Led hazardous waste management projects using plasma gasification
📖 Author & Researcher – Published over 100 papers and eight books on environmental science and pollution control

Dr. Zhu has pioneered several cutting-edge environmental technologies, contributing to academia and industry through his extensive research, project leadership, and consulting efforts. His plasma-based pollution control solutions have been implemented in large-scale environmental projects, significantly impacting China’s industrial waste management and air quality improvement.

AWARDS & HONORS

🏆 Outstanding Talent of the New Century – China
🏆 Outstanding Talent Award – Beijing
🏆 Sun Yuezaki Energy Science & Technology Award – National Science and Technology Development Foundation
🏆 Young Science & Technology Award – Chinese Society of Environmental Sciences
🏆 3 Provincial & Ministerial Science & Technology Progress Awards (First Completer)

Dr. Zhu’s pioneering research has been recognized nationally and internationally. His contributions to environmental engineering, particularly in air pollution control and plasma-based treatment methods, have earned him prestigious accolades, solidifying his reputation as a leading scientist in his field.

RESEARCH FOCUS

🌱 Air Pollution Control – Development of advanced plasma-assisted VOC and PM2.5 mitigation technologies
⚛️ Single-Atom Catalysis – Design of catalysts for effective gas-phase pollutant decomposition
🔥 Plasma Treatment Technologies – Application of non-thermal plasma for industrial waste gas purification
♻️ Hazardous Waste Management – Implementation of ultra-high-temperature plasma gasification solutions
🏭 Environmental Impact Assessment – Research on emission reduction strategies in coal-fired power plants

Dr. Zhu’s research integrates innovative environmental engineering solutions with industrial applications. His work aims to enhance pollution control efficiency, reduce emissions, and develop cost-effective technologies for sustainable industrial practices.

PUBLICATION TOP NOTES 📚

📖 Decomposition of benzene by non-thermal plasma processing: Photocatalyst and ozone effectInternational Journal of Environmental Science & Technology (2008)

📖 Life cycle carbon emission modelling of coal-fired power: Chinese caseEnergy (2018)

📖 An improved approach to estimate methane emissions from coal mining in ChinaEnvironmental Science & Technology (2017)

📖 Synergistic mechanism of Ce-Mn in ZSM-5 carrier catalysts for catalytic oxidation of tolueneFuel (2023)

📖 Gaseous phase benzene decomposition by non-thermal plasma coupled with nano titania catalystInternational Journal of Environmental Science & Technology (2009)

📖 Plasma-catalyzed combined dynamic wave scrubbing: A novel method for highly efficient removal of multiple pollutants from flue gas at low temperaturesJournal of Hazardous Materials (2024)

📖 Volatile organic compounds decomposition using nonthermal plasma coupled with a combination of catalystsInternational Journal of Environmental Science & Technology (2011)

📖 Preparation of zeolite X by the aluminum residue from coal fly ash for the adsorption of volatile organic compoundsFrontiers in Chemistry (2019)

📖 CO2 and SO2 emission characteristics of the whole process industry chain of coal processing and utilization in ChinaInternational Journal of Coal Science & Technology (2020)

📖 Effects of Mn, Cu, Sb, La on V–Mo–Ce/Ti SCR catalystsJournal of Rare Earths (2020)

📖 VOCs decomposition via modified ferroelectric packed bed dielectric barrier discharge plasmaIEEE Transactions on Plasma Science (2011)

📖 Porous materials confining single atoms for catalysisFrontiers in Chemistry (2021)

📖 Volatile organic compounds emission control in industrial pollution source using plasma technology coupled with F-TiO2/γ-Al2O3Environmental Technology (2015)

📖 Selective Catalytic Reduction of NO by NH3 Using a Combination of Non-Thermal Plasma and Mn-Cu/ZSM5 CatalystCatalysts (2020)

📖 Study on decomposition mechanism of toluene by non-thermal plasma coupled with catalysisJournal of Chemical Engineering of China (2011)

CONCLUSION

Dr. Tao Zhu is a leading researcher in atmospheric environment management and air pollution control, making significant contributions through innovative plasma treatment technologies and catalysis research. His extensive academic and industrial experience has led to impactful environmental solutions, shaping policies and practices in pollution control. With numerous prestigious awards, over 100 research publications, and multiple patents, he continues to push the boundaries of environmental science. His pioneering work in ultra-high-temperature plasma gasification and hazardous waste management has established him as a key figure in sustainable environmental engineering.

YANG WANG | Geothermal Energy | Best Researcher Award

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Dr YANG WANG | Geothermal Energy | Best Researcher Award

Senior Engineer, Shanghai Geological Engineering Exploration (Group) Co., Ltd, China

Yang Wang is a dedicated researcher and engineer specializing in geotechnical and environmental engineering. With extensive experience in energy conversion, groundwater science, and CO₂ geological sequestration, he has contributed significantly to the field. Currently serving as a Senior Engineer at Shanghai Geological and Mineral Engineering Survey (Group) Co., Ltd., he has led high-impact projects, mentored junior engineers, and collaborated on innovative solutions for complex geological challenges. His research focuses on energy piles, aquifer thermal energy storage (ATES), and thermo-hydro-mechanical simulations, with multiple publications in top-tier journals. He holds a Ph.D. in Civil and Hydraulic Engineering from Tongji University, complementing his M.S. from Beijing Normal University and B.S. from China University of Geosciences. His expertise and scholarly contributions have earned him recognition in the engineering community, with a strong citation record reflecting his impact.

PROFESSIONAL PROFILE

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EDUCATION 🎓

📍 Tongji University, Shanghai, China
🛠️ Ph.D. in Civil and Hydraulic Engineering (2020 – 2024)

  • Focused on energy geotechnics, aquifer thermal energy storage, and geotechnical simulations.

📍 Beijing Normal University, Beijing, China
🌊 M.S. in Groundwater Science and Engineering (2009 – 2012)

  • Specialized in CO₂ sequestration, groundwater flow modeling, and hydrological analysis.

📍 China University of Geosciences, Wuhan, China
💧 B.S. in Hydrology and Water Resources Engineering (2005 – 2009)

  • Gained expertise in water resources management, hydrological modeling, and environmental sustainability.

PROFESSIONAL EXPERIENCE 🏢

🔹 Shanghai Geological and Mineral Engineering Survey (Group) Co., Ltd., Shanghai, China
📌 Senior Engineer (2014 – Present)

  • Led geotechnical and environmental engineering projects, ensuring high-quality execution.
  • Conducted advanced geotechnical modeling for subsurface conditions and environmental impacts.
  • Developed innovative solutions for geological challenges and mentored junior engineers.
  • Conducted rigorous site investigations for safer construction practices.

🔹 Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Guangzhou, China
📌 Assistant Researcher (2012 – 2013)

  • Conducted research on energy conversion technologies and sustainable energy solutions.
  • Managed experimental setups, data collection, and analysis for research projects.
  • Contributed to scientific publications and internal reports on energy efficiency.

AWARDS & HONORS 🏅

🏆 Recognized for excellence in geotechnical engineering research.
📜 Multiple publications in high-impact scientific journals.
🔬 Contributor to groundbreaking studies in energy piles and ATES systems.
🎖️ Active member of geotechnical and hydrology research communities.
📊 Strong citation record reflecting research impact.

RESEARCH FOCUS 🔍

🌍 Energy Geotechnics – Investigating energy piles and thermal effects in geotechnical structures.
💧 Aquifer Thermal Energy Storage (ATES) – Modeling thermal and hydromechanical interactions in aquifers.
🏗 Geotechnical Engineering – Advanced simulations for subsurface stability and environmental impact.
CO₂ Sequestration – Numerical analysis of CO₂ storage efficiency in saline aquifers.
Renewable Energy Solutions – Enhancing efficiency of geothermal and energy storage systems.

PUBLICATION TOP NOTES 📚

1️⃣ Full-scale in-situ experimental study on the bearing capacity of energy piles under varying temperature and multiple mechanical load levels. Acta Geotechnica, 2023.
2️⃣ Thermo-hydro-mechanical coupled simulation of land subsidence due to aquifer thermal energy storage system in soft soils. Journal of Rock Mechanics and Geotechnical Engineering, 2024.
3️⃣ Operation optimization for aquifer thermal energy storage (ATES) systems based on a surrogate model-assisted method. Applied Thermal Engineering, 2025.
4️⃣ Numerical investigation of the storage efficiency factor for CO₂ geological sequestration in saline formations. Energy Procedia, 2013.
5️⃣ Investigation of CO₂ storage capacity in open saline aquifers with numerical models. Procedia Engineering, 2012.
6️⃣ Three-dimensional heat transfer-seepage coupling simulation of large-scale buried pipe cluster ground source heat pump system. Acta Energiae Solaris Sinica, 2024.
7️⃣ Thermomechanical analysis of energy piles using a novel load-transfer approach considering soil coupling effects. Computers and Geotechnics, 2024.

Yuanyuan Wang | Environmental Pollutants | Best Researcher Award

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Assoc. Prof. Dr. Yuanyuan Wang | Environmental Pollutants | Best Researcher Award

Associate Professor, Jinling Institute of Technology, China

Dr. Yuanyuan Wang is an Associate Professor at Jinling Institute of Technology, with a focused research career in environmental pollution control and photocatalytic materials. With a doctoral degree from the Institute of Chemistry, Chinese Academy of Sciences, Dr. Wang’s work has led to significant contributions in the areas of pollution removal and environmental sustainability. She has published 15 SCI papers, primarily in renowned international journals, and holds two Chinese invention patents, with more in progress. She is actively involved with national projects funded by the National Natural Science Foundation of China and collaborates widely within the research community. Dr. Wang is dedicated to developing cutting-edge materials that address some of the most pressing environmental concerns related to hazardous pollutants such as halogenated organic compounds and hexavalent chromium.

Profile

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Education

Dr. Yuanyuan Wang earned her Ph.D. in Chemistry from the Institute of Chemistry, Chinese Academy of Sciences, in 2019. Throughout her academic journey, Dr. Wang demonstrated a keen interest in materials science and environmental chemistry, laying the foundation for her pioneering research in photocatalytic materials. She completed her undergraduate and master’s degrees in Chemistry, further sharpening her scientific inquiry skills and desire to create sustainable solutions for environmental challenges. Following her doctoral studies, Dr. Wang joined Jinling Institute of Technology as a faculty member, where she has focused on environmental pollution control, particularly using photocatalytic techniques for waste removal and water purification. Her strong educational background has greatly contributed to her success in academia and innovation, placing her at the forefront of pollution control research.

Experience

Dr. Yuanyuan Wang began her professional journey as a faculty member at Jinling Institute of Technology after completing her Ph.D. at the Institute of Chemistry, Chinese Academy of Sciences. Her extensive research experience includes the successful completion of three major research projects, with one currently ongoing. Dr. Wang has also led industry-related consultancy projects and collaborated with the National Natural Science Foundation of China on several initiatives. Her work has resulted in over 15 published research papers, many as the first or corresponding author, in prestigious scientific journals, garnering over 200 citations. Her role as a reviewer for journals like Journal of Environmental Science and Journal of Materials Science: Materials in Electronics further highlights her expertise. Dr. Wang has made significant strides in the development of materials that effectively address the removal of environmental pollutants, enhancing both her research and practical application knowledge.

Research Focus

Dr. Yuanyuan Wang’s primary research focus lies in the design of innovative photocatalytic materials aimed at environmental pollution control. Specifically, her work tackles pollutants such as halogenated organic compounds and hexavalent chromium, common contaminants in industrial effluents and wastewater. Her research involves developing advanced photocatalysts that use sunlight to break down harmful substances, with applications in water purification, waste management, and environmental remediation. Dr. Wang has designed a variety of photocatalytic materials to efficiently remove these pollutants, elucidating the underlying reaction mechanisms involved. Her work has led to several published papers and granted patents, furthering our understanding of photocatalysis and its environmental applications. Additionally, her contributions are not limited to fundamental research but also extend to practical industrial applications, where she has completed multiple industry projects. Dr. Wang aims to offer scalable solutions to pollution control, aligning with her broader goal of advancing sustainable materials for cleaner environments.

Publication Top Notes

  • Hierarchical CaIn2S4/NiTiO3 heterojunction enhanced removal of hexavalent chromium powered by visible irradiation 🌍🔬
  • Unlocking OER catalytic potential and chiral Fe3O4 film as a game-changer for electrochemical water oxidation pathway and by-product control ⚡🌱
  • Simplistic preparation of Sn-doped MgIn2S4 for photocatalytic organic dye degradation under visible light irradiation 🌞🔬
  • A readily synthesized ZnIn2S4/attapulgite as a high-performance photocatalyst for Cr(VI) reduction 💧🔬
  • Improved Conductivity and in Situ Formed Heterojunction via Zinc Doping in CuBi2O4 for Photoelectrochemical Water Splitting 💧⚡
  • The impact of iron–boron electrocatalysts on the charge transport and oxygen evolution reaction of bismuth vanadate photoanodes 🌱🔋
  • Cu-doped In2S3 hierarchical structures for photocatalytic organic dye degradation under visible light irradiation 🌞♻️
  • Gold nanoparticle, surface plasmon resonance enhanced visible-light-driven debromination of tetrabromodiphenyl ethers by ZnIn2S4 💡🧪

 

 

Mashkhurbek Jalalov | Environmental Policy and Management | Best Researcher Award

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Dr Mashkhurbek Jalalov | Environmental Policy and Management | Best Researcher Award

Senior Lecturer, British Management University in Tashkent, Uzbekistan

Mashkhurbek Jalalov is an esteemed economist and senior lecturer at the British Management University in Tashkent, Uzbekistan. With a profound academic background, he holds a Ph.D. in Economics from Chonnam National University, South Korea. He has experience teaching at multiple institutions, including Chonnam National University and Singapore International School in South Korea. Mashkhurbek is an expert in energy economics, environmental economics, and the relationship between green finance and corporate sustainability. His current research interests focus on green bonds, RE100 commitment, and corporate sustainability practices.

PROFESSIONAL PROFILE

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STRENGTHS FOR THE AWARD

  • Academic Excellence: Mashkhurbek Jalalov has demonstrated strong academic capabilities, earning a Ph.D. in Economics from Chonnam National University in South Korea, with a dissertation on green finance and corporate sustainability. His research provides valuable insights into green bonds, RE100 commitments, and post-commitment performance, which is timely and impactful.
  • Diverse Teaching Experience: He has gained extensive teaching experience across a range of economics subjects, including Energy Economics, Environmental Economics, and Statistics. His involvement in both teaching and research shows a strong commitment to academic growth and student development.
  • Innovative Research Focus: Mashkhurbek’s research on green finance and corporate sustainability, especially his examination of the RE100 initiative’s impact on corporate financial performance, is cutting-edge and highly relevant to today’s environmental and financial challenges. This work directly addresses pressing global issues related to sustainability.
  • Publication Record: His upcoming publication in Energy Policy focuses on corporate participation in the RE100 initiative, demonstrating his continued contribution to the field of energy economics and sustainability.

AREAS FOR IMPROVEMENT

  • Wider Research Collaboration: While Mashkhurbek has collaborated with a co-author (Jeong Hwan Bae), further expanding his research network could help diversify his work, attracting greater attention and a broader range of research opportunities.
  • Broader Impact in International Journals: While his work is already being published in reputable journals, continuing to target top-tier international journals in economics and sustainability could further enhance his recognition in the global research community.
  • Increased Research on Policy Impacts: Given his background in economics and sustainability, focusing on the policy implications of his research, particularly the practical application of green finance policies, could further increase the relevance and impact of his work.

EDUCATION

Mashkhurbek Jalalov obtained his Ph.D. in Economics from Chonnam National University, South Korea, where his dissertation examined green finance and corporate sustainability, particularly focusing on green bonds and RE100 commitment. He completed his Bachelor’s degree in International Economic Relations at the University of World Economy and Diplomacy, Uzbekistan. His thesis explored the impact of exchange rates on foreign reserves and interest rates in Uzbekistan. Mashkhurbek also holds a Master’s degree in Economics from Chonnam National University, strengthening his expertise in economics and finance.

EXPERIENCE

Mashkhurbek Jalalov currently serves as a Senior Lecturer in the Department of Business Administration at British Management University, Tashkent, Uzbekistan. He has taught various economics subjects, including Microeconomics, Macroeconomics, Data Analysis, and Energy Economics. Mashkhurbek has also worked as a Teaching Assistant at Chonnam National University in multiple subjects, such as Environmental Economics, Energy Economics, and Statistics. In addition, he taught Math and Economics at Singapore International School in South Korea, where he played an essential role in supporting students’ academic development.

AWARDS AND HONORS

Mashkhurbek Jalalov has been recognized for his academic achievements and teaching excellence. His research on green finance and sustainability has been featured in top journals. He is a recipient of the Best Researcher Award for his dissertation on green finance and corporate sustainability. He has also earned several fellowships and grants for his innovative contributions to the field of economics, particularly in green finance and corporate sustainability initiatives. Mashkhurbek continues to inspire students and professionals in the field with his research and teaching efforts.

RESEARCH FOCUS

Mashkhurbek Jalalov’s research focuses on green finance, corporate sustainability, and the economic impacts of environmental policies. His work examines the effectiveness of green bonds, RE100 commitments, and other sustainability initiatives in driving corporate sustainability performance. He is particularly interested in understanding how financial instruments can support the transition to a low-carbon economy and the role of corporate responsibility in mitigating environmental impacts. Mashkhurbek’s research aims to bridge the gap between financial economics and environmental sustainability.

PUBLICATION TOP NOTES

  • Exploring the motivations behind corporate participation in the RE100 initiative and its impact on financial performance 🌱💼
    Energy Policy | March 2025 | DOI: 10.1016/j.enpol.2025.114503

CONCLUSION

Mashkhurbek Jalalov is highly deserving of the Best Researcher Award due to his groundbreaking research on green finance and sustainability, particularly in the context of corporate commitments like RE100. His academic qualifications, teaching experience, and innovative research make him a strong candidate. By expanding his research network and increasing the policy-driven impact of his work, he can continue to make significant contributions to the field of economics and sustainability.