Samuel de witt | Biophilic Design | Research Excellence Award

Published on by Architecture Engineers

Research Excellence Award

Samuel de Witt
University of Cape Town, South Africa

Samuel de Witt
Affiliation University of Cape Town
Country South Africa
Research Focus Living Wall Systems
Academic Field Sustainable Architecture
Institution Type Public Research University
Event Architecture Engineers Awards
Research Platform ResearchGate
Primary Expertise Green Building Technologies
Collaboration Areas Urban Sustainability, Environmental Design

The Research Excellence Award recognizes scholarly achievement and sustained academic contribution in the field of sustainable architectural innovation. Samuel de Witt of the University of Cape Town has contributed to research associated with living wall systems, sustainable environmental integration, and ecological architectural methodologies. His academic activities reflect a multidisciplinary engagement with environmental design principles and contemporary green infrastructure strategies within built environments.[1]

Abstract

This article presents an overview of the academic profile and research-oriented contributions of Samuel de Witt in the area of living wall systems and sustainable architectural practices. The discussion highlights his association with interdisciplinary environmental design initiatives, research collaborations, and scholarly dissemination activities related to green infrastructure technologies. The profile also examines the relevance of his work within broader sustainability objectives and architectural engineering applications.[2]

Keywords

Living Wall Systems, Sustainable Architecture, Environmental Design, Green Infrastructure, Urban Ecology, Architectural Engineering, Vertical Gardens, Sustainable Urban Development, Ecological Building Systems

Introduction

The increasing emphasis on sustainable urbanization has encouraged researchers and architectural practitioners to explore environmentally responsive building systems. Living wall systems have emerged as a relevant area of investigation due to their potential contributions to thermal performance, biodiversity support, and urban environmental quality. Academic studies associated with this field commonly integrate engineering principles, ecological sciences, and architectural design methodologies.[3]

Samuel de Witt’s scholarly profile reflects engagement with research activities aligned with these sustainability objectives. His institutional association with the University of Cape Town places his work within a broader context of African and international sustainability-oriented architectural research initiatives.[1]

Research Profile

  • Research specialization in living wall systems and ecological integration
  • Institutional affiliation with the University of Cape Town
  • Focus on sustainable urban architectural methodologies
  • Engagement with collaborative environmental design research

Research Contributions

  • Integration of sustainable vegetation systems within built environments
  • Research engagement with urban ecological enhancement
  • Support for environmentally responsive architectural practices
  • Collaboration with sustainability-oriented academic networks

Publications

The scholarly profile of Samuel de Witt includes contributions and collaborative research participation associated with sustainability and environmental design themes. Research dissemination through academic networking platforms supports broader accessibility to architectural engineering scholarship and interdisciplinary exchange.[2]

Selected Research Themes

  • Living wall systems and green façade technologies
  • Urban environmental sustainability strategies
  • Ecological architectural engineering
  • Climate-responsive building methodologies

Associated Academic Collaborations and Co-authors

  • Collaborative sustainability researchers within architectural engineering networks
  • Interdisciplinary environmental design contributors
  • Urban ecological systems researchers
  • Built environment sustainability specialists

Example DOI-related sustainability literature relevant to living wall systems includes environmental design and green infrastructure studies available through scholarly indexing systems and DOI repositories.[1]

Research Impact

Research in living wall systems contributes to the broader objective of creating environmentally adaptive and resource-efficient urban spaces. The academic relevance of this work extends to energy conservation, thermal regulation, biodiversity enhancement, and public environmental awareness within rapidly urbanizing regions.

Samuel de Witt’s research orientation reflects growing international interest in sustainable infrastructure integration and environmentally conscious architectural development. Such contributions support ongoing scholarly discussions concerning ecological resilience and sustainable urban planning frameworks.[3]

Award Suitability

The Research Excellence Award recognizes sustained scholarly contribution, interdisciplinary collaboration, and research relevance within architectural engineering and sustainable design fields. Samuel de Witt’s research activities in living wall systems align with these objectives through their focus on ecological integration, environmental sustainability, and innovative urban design applications.[4]

  • Commitment to sustainable architectural innovation
  • Interdisciplinary environmental research engagement
  • Contribution to urban ecological development discussions
  • Alignment with global sustainability objectives in architecture

Conclusion

Samuel de Witt’s academic profile demonstrates engagement with sustainability-oriented architectural research, particularly in the area of living wall systems and ecological building integration. His institutional affiliation, collaborative participation, and thematic research focus collectively support the recognition of environmentally responsive architectural methodologies. The Research Excellence Award reflects the broader significance of such contributions within contemporary architectural engineering and sustainable urban development discourse.[1]

References

  1. ResearchGate. (n.d.). Scientific contributions of Samuel Johan De Witt. ResearchGate.
    https://www.researchgate.net/scientific-contributions/Samuel-Johan-De-Witt-2344501699
  2. Google Scholar. (n.d.). Scholar profile for Samuel de Witt. Google Scholar.

    https://scholar.google.com/citations?hl=en&user=2FxHppcAAAAJ
  3. Architecture Engineers Awards. (n.d.). Research Excellence Award recognition platfor. https://architectureengineers.com

  4. Terblanche, R., De Witt, S. J., & Pringle, A. G. (2026). <i>A context-adapted living wall model for South Africa: A quantity surveying perspective.

    https://doi.org/10.3390/su18062978

Hasim Altan | Sustainable Architecture | Editorial Board Member

Published on by Architecture Engineers

Editorial Board Member

Hasim Altan
United Arab Emirates University
Hasim Altan
Affiliation United Arab Emirates University
Country United Arab Emirates
Scopus ID 24757803500
Documents 133
Citations 1,491
h-index 23
Subject Area Building Performance Simulation
Event Architecture Engineers Awards
ORCID 0000-0002-9534-1961

Hasim Altan is an academic researcher affiliated with the United Arab Emirates University whose scholarly activities have contributed to the advancement of sustainable architecture, building performance simulation, environmental design, and energy-efficient construction practices. His publication profile demonstrates sustained engagement with interdisciplinary research addressing sustainable urban development, climate-responsive architectural systems, and innovative engineering applications in the built environment.[1] The academic recognition associated with the Architecture Engineers Awards reflects professional contributions to research, teaching, and scholarly dissemination within architecture and engineering disciplines.[2]

Abstract

This academic article presents a structured overview of the scholarly profile and professional recognition of Hasim Altan in the field of architecture and building performance simulation. The article examines institutional affiliations, publication productivity, citation indicators, interdisciplinary research themes, and contributions to sustainable architectural engineering. Particular attention is given to research activities related to environmental sustainability, building energy efficiency, simulation methodologies, and architectural innovation within global academic contexts.[1] The article also evaluates the relevance of these achievements within the framework of the Architecture Engineers Awards and broader academic recognition systems.[3]

Keywords

Building Performance Simulation; Sustainable Architecture; Environmental Design; Energy Efficiency; Architectural Engineering; Climate-Responsive Buildings; Urban Sustainability; Green Construction; Academic Research; Built Environment.

Introduction

The increasing importance of sustainability in the built environment has intensified global research activities related to energy-efficient design, environmental simulation, and resilient architectural systems. Researchers working within architecture and engineering disciplines contribute significantly to the development of innovative methods capable of improving building performance and reducing environmental impact.[4] Within this context, Hasim Altan has established an academic profile characterized by interdisciplinary scholarship connecting architecture, sustainability, simulation technologies, and environmental engineering.[1]

Academic recognition through editorial responsibilities and award-oriented platforms reflects both scholarly productivity and professional engagement. Editorial board memberships frequently indicate expertise in peer review, scientific evaluation, and disciplinary leadership within international research communities.

Research Profile

Hasim Altan is associated with United Arab Emirates University and maintains an established publication record indexed through Scopus and ORCID research systems.[1] The research profile includes publications spanning architecture, building science, energy modeling, environmental sustainability, and engineering applications relevant to climate-responsive urban development.

The available citation metrics demonstrate measurable scholarly influence within architecture and engineering research networks. Citation indicators, including the h-index and total citation count, are frequently used to assess the dissemination and academic reception of published research outputs.[2]

  • Primary specialization in building performance simulation and sustainable architecture.
  • Research contributions related to environmental sustainability and energy-efficient building systems.
  • Interdisciplinary collaboration involving architecture, engineering, and environmental sciences.
  • Active scholarly dissemination through indexed journals and international academic platforms.

Research Contributions

The research activities associated with Hasim Altan emphasize analytical approaches to building sustainability and environmental optimization. Building performance simulation techniques are increasingly applied to assess thermal behavior, energy consumption, indoor environmental quality, and sustainable operational performance in contemporary architectural practice.[3]

Contributions within this field frequently involve simulation-driven methodologies for evaluating architectural efficiency under diverse climatic conditions. Such methodologies support informed decision-making processes for architects, planners, and engineers involved in sustainable urban development projects.[4]

  • Research on energy-efficient architectural systems and environmental design strategies.
  • Development of simulation-based approaches for evaluating building sustainability.
  • Investigation of climate-responsive architectural solutions in urban environments.
  • Academic engagement with sustainable construction technologies and green building frameworks.

Publications

The publication portfolio associated with Hasim Altan includes scholarly articles and collaborative research outputs addressing architecture, sustainability, environmental engineering, and building simulation technologies.[1] Indexed publications contribute to international academic discourse concerning sustainable built environments and energy-conscious architectural systems.

  1. Research studies related to sustainable building performance assessment methodologies.
  2. Scholarly analyses examining environmental impacts of architectural systems.
  3. Publications addressing simulation technologies in sustainable urban planning.
  4. Collaborative interdisciplinary investigations involving engineering and environmental sustainability.

Research Impact

Research impact within architecture and engineering disciplines is frequently evaluated through publication productivity, citation analysis, interdisciplinary collaboration, and contributions to sustainable development initiatives. The documented citation metrics associated with Hasim Altan indicate sustained academic visibility within scholarly communication systems.[1]

Research outputs addressing building performance simulation and environmental sustainability possess practical relevance for policymakers, architects, urban planners, and engineering professionals. Simulation-informed approaches contribute to improving building efficiency, reducing environmental impact, and advancing evidence-based design methodologies within contemporary architectural practice.

Award Suitability

The Architecture Engineers Awards recognize professional and academic contributions that demonstrate innovation, research excellence, and interdisciplinary engagement within architecture and engineering domains.[3] Based on the documented publication activity, citation performance, and specialization in sustainable architectural systems, Hasim Altan’s academic profile aligns with several evaluation themes commonly associated with scholarly recognition initiatives.

  • Established publication record indexed within international academic databases.
  • Demonstrated scholarly influence through citations and interdisciplinary collaborations.
  • Contributions to sustainable architecture and building simulation methodologies.
  • Professional engagement relevant to editorial and academic leadership responsibilities.

Conclusion

Hasim Altan represents an academic researcher whose contributions to building performance simulation, sustainable architecture, and environmental design are reflected through indexed publications, citation indicators, and interdisciplinary scholarship. The academic profile demonstrates continuing engagement with sustainable development themes relevant to contemporary architecture and engineering research.[1] Participation in editorial and professional recognition platforms further highlights the role of scholarly leadership within international research communities.

References

  1. Elsevier. (n.d.). Scopus author details: Hasim Altan, Author ID 24757803500. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=24757803500
  2. Architecture Engineers Awards. (n.d.). Architecture Engineers Awards official website. https://architectureengineers.com
  3. ORCID. (n.d.). ORCID profile of Hasim Altan.
    https://orcid.org/0000-0002-9534-1961
  4. Afash, H., Ozarisoy, B., & Altan, H. (2025). Biofuel production using tire waste in fast pyrolysis: A life cycle assessment study. Sustainable Environment, 11(1), Article 2510728.
    https://doi.org/10.1080/27658511.2025.2510728

Djillali Benouar | Environmental Design | Research Excellence Award

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Prof. Dr. Djillali Benouar | Environmental Design | Research Excellence Award

Professor | University Of Science And Technology Houari Boumediene | Algeria

Djillali Benouar is a Professor at University Of Science And Technology Houari Boumediene and Director of the Built Environment Research Laboratory, specializing in engineering seismology, earthquake engineering, and disaster risk reduction. With extensive academic and consultancy experience, he has led major international and national research projects, advised global organizations including the African Union and UNESCO, and contributed to policy frameworks on disaster resilience. His research focuses on seismic hazard assessment, vulnerability analysis, and risk governance, with numerous high-impact journal publications and book contributions. He has held key leadership roles such as Editor-in-Chief of the Oxford Research Encyclopedia Natural Hazards Science and the ASRIC Journal, and membership in international science advisory groups. His honors include prestigious international recognitions and editorial distinctions, reflecting his global impact in disaster risk science and education. His research impact includes 738 citations across 575 documents, 54 publications, and an h-index of 15.

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Featured Publications

Eui Chan Jeon | Environmental Design | Best Researcher Award

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Prof. Eui Chan Jeon | Environmental Design | Best Researcher Award

Professor | Sejong University | South Korea

Prof. Euichan Jeon is a leading researcher at Sejong University, South Korea, specializing in environmental engineering, climate technology, and advanced functional materials. With 130 publications, 2,148 citations, and an h-index of 22, he has established a strong global academic presence. His work spans greenhouse gas abatement, semiconductor process emissions, thermoelectric materials, and life cycle assessment of sustainable solutions. Supported by an extensive collaboration network of over 200 co-authors, his research demonstrates significant interdisciplinary impact. Jeon’s contributions advance industrial decarbonization, environmental monitoring, and clean technology development, supporting global efforts toward sustainability and climate change mitigation.

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Featured Publications

Yong-Duck Chung | Climate-Responsive Architecture | Research Excellence Award

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Dr. Yong-Duck Chung | Climate-Responsive Architecture | Research Excellence Award

Principal Researcher | Electronics and Telecommunications Research Institute | South Korea

Dr. Yong-Duck Chung is a leading researcher in advanced materials science, with significant contributions to topological insulators, thin-film photovoltaics, and optoelectronic device engineering. His work focuses on the design, fabrication, and characterization of chalcogenide thin films, nano-structured materials, and surface/interface electronic structures using advanced techniques such as synchrotron radiation. He has played a pivotal role in developing high-efficiency CIGS solar cells, high-speed optical communication devices, and next-generation photonic systems. With a strong emphasis on functional thin films and quantum materials, his research bridges fundamental physics and practical device applications. He has authored 144 scientific publications with 1862 citations and an h-index of 25, reflecting sustained impact and scholarly influence. His contributions are further evidenced by numerous international patents in photovoltaic and optical technologies, advancing innovation in energy conversion and semiconductor device engineering.

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Featured Publications

William Braham | Climate-Responsive Architecture | Innovative Research Award

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Prof. Dr. William Braham | Climate-Responsive Architecture | Innovative Research Award

Professor |  University of Pennsylvania | United States

William W. Braham is a distinguished scholar at the University of Pennsylvania’s Stuart Weitzman School of Design, specializing in environmental building design, energy systems, and climate-responsive architecture. He has authored 63 publications, 1,106 citations and an h-index of 13, reflecting sustained academic impact. His research integrates bioclimatic design, HVAC performance analysis, and carbon footprint assessment, addressing the global climate emergency through innovative design strategies. With extensive collaboration across 69 co-authors, his work bridges academia and practice. Braham’s contributions significantly influence sustainable architecture, advancing energy-efficient built environments and promoting low-carbon solutions with broad societal and environmental benefits.

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Sahar Ramadan | Sustainable Architecture | Research Excellence Award

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Assist. Prof. Dr. Sahar Ramadan | Sustainable Architecture | Research Excellence Award

Associate Professor | Higher Technological Institute | Egypt

Assist. Prof. Dr. Sahar Ramadan is an Associate Professor of Architecture specializing in Interior Architecture, affiliated with leading higher education institutes, with expertise in interior design, lighting design, sustainability, and architectural heritage. She has held academic and leadership roles including department head, quality coordinator, and program developer, contributing to accreditation, curriculum development, and institutional quality assurance. Her research focuses on interior design studios, visual lightness, longevity and flexibility, human-centered sustainable interiors, and integrating historical architectural elements into contemporary practice, with publications in peer-reviewed and indexed journals. Her research impact includes 2 citations, an h-index of 1.

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Featured Publications

Pankaj Kumar Dubey | Sustainable Architecture | Young Scientist Award

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Mr. Pankaj Kumar Dubey | Sustainable Architecture | Young Scientist Award

Kamla Nehru Institute of Technology | India

Pankaj Kumar Dubey is a Teaching Assistant and Research Fellow in the Department of Electrical Engineering at Kamla Nehru Institute of Technology, specializing in distributed generation, electric vehicles, renewable energy systems, and intelligent power system optimization. He has served as lecturer, lab in-charge, and an active contributor to institutional accreditation committees, alongside prior industry experience as an Electrical Engineer. His professional work spans coordinated control strategies for distributed generations with electric vehicles, smart grid scheduling, microgrid optimization, and AI-based simulation studies, supported by extensive publications in SCI and Scopus-indexed journals, international conferences, book chapters, authored textbooks,multiple granted and published patents across India and abroad. He has earned numerous national and international honors recognizing his academic excellence and research contributions, and he serves as a reviewer for major journals including IEEE Transactions on Intelligent Transportation Systems while holding memberships in several global research and professional organizations. His research impact includes 147 citations, 11 publications, and an h-index of 5.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Dubey P.K., Singh B., Singh D., Singh M.K., Blockchain for Health Care: A Review. In: Blockchain Technology for Healthcare Application, Nova Science Publishers, Accepted.

2. Singh B., Dubey P.K., Distributed power generation planning for distribution networks using electric vehicles: Systematic attention to challenges and opportunities. J. Energy Storage, 2022, 48, 104030.

3. Yadav S., Sudman M.S.I., Dubey P.K., Srinivas R.V., Srisainath R., Devi V.C., Development of a GA-RBF based Model for Penetration of Electric Vehicles and its Projections. Int. Conf. Self Sustainable Artificial Intelligence Systems, 2023, 42.

4. Singh B., Dubey P.K., Singh S.N., Recent optimization techniques for coordinated control of electric vehicles in super smart power grids network: A state of the art. IEEE UPCON, 2022, 32.

5. Dubey P.K., Singh B., Kumar V., Singh D., A novel approach for comparative analysis of distributed generations and electric vehicles in distribution systems. Electr. Eng., 2024, 106(3), 2371–2390.

By developing optimized control strategies for distributed energy resources and electric vehicles, he strengthens the foundation of future smart grids and sustainable power systems. His research drives scientific progress and supports industry and society in transitioning toward cleaner, smarter, and more reliable energy technologies.

Mahyar Fazli | Green Building and LEED Design | Best Innovation Award

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Dr. Mahyar Fazli | Green Building and LEED Design | Best Innovation Award

Research Assistant | Sharif University of Technology | Iran

Mahyar Fazli is a Research Assistant in the Department of Aerospace Engineering at Sharif University of Technology, specializing in thermoacoustics, renewable energy systems, waste heat recovery, pulsating heat pipes, and advanced thermal management technologies. His professional experience includes leading simulation, analysis, and design efforts on thermoacoustic refrigeration and power-generation systems, contributing to the development of high-efficiency thermal devices, and advancing research on pulsating heat pipes, nanofluid-based solar receivers, and Organic Rankine Cycle applications. He has authored multiple high-impact publications in reputable journals, including comprehensive reviews, experimental investigations, and optimization studies that address thermoacoustic performance, exergy analysis, and innovative cooling strategies. His contributions include conceptual design of thermoacoustic integration in sustainable architecture, advancements in pulsating heat pipe geometries, and methodologies for enhancing heat-driven refrigeration systems. In addition to his research output, he has an extensive record of peer-review service for major international journals across renewable energy, thermal engineering, artificial intelligence, and fluid dynamics, reflecting his recognition as an emerging expert in the field. He actively engages in scholarly communities through editorial and review activities, professional memberships, and interdisciplinary collaborations, demonstrating a strong commitment to advancing sustainable energy technologies and improving thermal system efficiency. His research impact includes 517 citations, 8 publications, an h-index of 7.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Ansari M., Basiri M., Fazli M., Mazaheri K., Hosseinzadeh S., Matini M.R., Innovative integration of thermoacoustic technology in architectural design for sustainable cooling: A conceptual design. Energy, 2025, 139102.

2. Mahmoudi A., Fazli M., Morad M.R., A recent review of waste heat recovery by Organic Rankine Cycle. Appl. Therm. Eng., 2018, 143, 660–675.

3. Mehrjardi S.A.A., Khademi A., Fazli M., Optimization of a thermal energy storage system enhanced with fins using generative adversarial networks method. Therm. Sci. Eng. Prog., 2024, 49, 102471.

4. Mahmoudi A., Fazli M., Morad M.R., Gholamalizadeh E., Thermo-hydraulic performance enhancement of nanofluid-based linear solar receiver tubes with forward perforated ring steps and triangular cross section: A numerical investigation. Appl. Therm. Eng., 2020, 169, 114909.

5. Fazli M., Mehrjardi S.A.A., Mahmoudi A., Khademi A., Amini M., Advancements in pulsating heat pipes: Exploring channel geometry and characteristics for enhanced thermal performance. Int. J. Thermofluids, 2024, 22, 100644.

Mahyar Fazli’s work advances next-generation thermal and energy systems by developing high-efficiency thermoacoustic, heat-transfer, and waste-heat-recovery technologies that address global sustainability challenges. His research contributes to cleaner energy futures by improving cooling systems. Through innovative modeling, design, and interdisciplinary collaboration, he drives scientific progress toward more efficient and environmentally responsible energy systems worldwide.

Shakil Ahmad | Environmental Design | Editorial Board Member

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Dr. Shakil Ahmad | Environmental Design | Editorial Board Member

University of International Business and Economics | China

Shakil Ahmad is an economist and doctoral graduate from the University of International Business and Economics, Beijing, specializing in applied econometrics, environmental economics, trade relations, and sustainable development. He has served as a Lecturer at the University of Agriculture Peshawar and Abdul Wali Khan University Mardan, teaching econometrics, macroeconomics, microeconomics, international economics, and applied quantitative methods. His professional experience includes contributing to research projects on hospitality sector gaps, crime and justice systems, and socio-economic assessments, where he carried out survey design, field data collection, econometric estimation, and technical proposal development. His research focuses on environmental sustainability, carbon neutrality, energy economy interactions, import demand dynamics, financial inclusion, and foreign direct investment, with publications in recognized journals such as Resources Policy, Journal of Economy and Technology, Asian Journal of Economics and Empirical Research, SAGE Open, Frontiers of Finance, and the Journal of Environmental and Energy Economics. He has served as first or corresponding author on numerous studies addressing China’s environmental policies, Pakistan’s economic sectors, and global trade–environment linkages. His academic trajectory is supported by competitive scholarships throughout his BS, MS, and PhD studies, alongside active involvement in collaborative research, manuscript development, and scholarly engagement. His research impact includes 4 citations, 2 documents, and an h-index of 1.

Profiles: Scopus | ORCID | Google Scholar   

Featured Publications

1. Rahman Z.U., Ahmad S., Khan A. Bridging the EPC and IPAT in the presence of natural resources in China: Considering asymmetries in environmental-related technologies and unemployment. Resources Policy, 2025, 105523.

2. Ahmad S. Exploring the nexus of energy consumption, trade openness, CO2 emissions, and economic growth: A time series analysis in Kuwait. SSRN Electronic Journal, 2024, DOI: 10.2139/ssrn.4817593.

3. Mulk W., Ahmad S., Younas W., Ali S.Y. Testing the neutrality of money, labor, and capital in Pakistan’s agriculture sector. Asian Journal of Economics and Empirical Research, 2024, DOI: 10.20448/ajeer.v11i2.6311.

4. Ahmad S., Raihan A., Ridwan M. Role of economy, technology, and renewable energy toward carbon neutrality in China. Journal of Economy and Technology, 2024, DOI: 10.1016/j.ject.2024.04.008.

5. Ahmad S., Maqbool I., Raihan A., Xin L. Analyzing the dynamics of import demand function in Pakistan: Long-term and short-term relationships with key economic factors. Asian Journal of Economics and Empirical Research, 2024, DOI: 10.20448/ajeer.v11i2.5959.

The nominee’s work advances scientific understanding of the energy economy environment nexus by delivering evidence-based insights that support sustainable policy formulation and low-carbon development. Through rigorous econometric modeling and multidisciplinary research, his contributions enhance decision-making in environmental governance, global trade, and long-term economic resilience.