Dongsheng Xu – sensor development – Best Researcher Award

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Dongsheng Xu - sensor development - Best Researcher Award

Wuhan University of Technology - China

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Prof. Dongsheng Xu is a distinguished scholar in geotechnical engineering, serving as Vice Dean at the School of Civil Engineering and Architecture, Wuhan University of Technology. He leads the Smart Infrastructure & Safety Protection (SISP) research center and is globally recognized for his contributions to coral reef geotechnics and smart sensing in civil structures. With significant roles in professional societies like ISSMGE and ASCE, he is a proactive leader in engineering research and education. His dedication to academic excellence is reflected in over 96 publications and 26 patents, positioning him as a key figure in modern civil engineering research.

EDUCATION

Prof. Xu earned his PhD in Geotechnical Engineering from The Hong Kong Polytechnic University in 2014, preceded by an MPhil from the Chinese Academy of Sciences in 2010. He completed his undergraduate studies at Central South University in 2007. His academic path reflects a strong foundation in engineering principles with progressive specialization in soil and rock mechanics. This well-rounded education empowered his innovative research in infrastructure safety, coastal geology, and sensor technologies. His academic background laid the groundwork for his leadership in high-impact research and mentoring of emerging scholars in civil and geotechnical engineering.

PROFESSIONAL EXPERIENCE

Prof. Xu has held progressive academic positions since 2014, starting as an Assistant Professor at Chu Hai College of Higher Education in Hong Kong, later joining Huazhong University of Science and Technology, and now serving as Professor and Vice Dean at Wuhan University of Technology. He has been instrumental in curriculum development and institutional leadership. His international teaching experience and research advisory roles have allowed him to shape future engineers while directing impactful research programs. His current administrative and academic responsibilities reflect his strong leadership in civil engineering education and innovation.

RESEARCH INTEREST

Prof. Xu's research focuses on coral reef engineering geology, smart sensing technology, soil behavior under dynamic loading, and infrastructure safety monitoring. He integrates fiber optic sensing and advanced geotechnical analysis to solve real-world problems in marine and civil engineering. His work advances sustainable development in island and coastal infrastructure, aiming to protect strategic regions like the South China Sea. He is also interested in geosynthetics, soil-structure interaction, and health monitoring systems for tunnels and slopes. His research blends theoretical modeling with experimental validation, leading to high-impact solutions in geotechnical practice.

AWARD AND HONOR

Prof. Xu has received the prestigious National Excellent Youth Science Fund and has led projects under China’s National Key Research and Development Program. These accolades affirm his innovative work in geotechnical sensing and infrastructure safety. He was honored through multiple grants from the National Natural Science Foundation and has earned recognition for his leadership in research collaborations. His professional influence is further evidenced by his active involvement in technical committees and his role as session chair in international conferences, underscoring his outstanding contributions to engineering science and academic service.

RESEARCH SKILL

Prof. Xu possesses advanced expertise in fiber optic sensing, soil mechanics, geotechnical instrumentation, and structural health monitoring. He skillfully applies numerical modeling, laboratory experimentation, and field measurements to complex civil engineering challenges. His ability to synthesize cutting-edge technology—such as distributed sensors and machine learning—in infrastructure evaluation showcases his versatility. He has also developed novel transducers and monitoring systems adopted in real-world applications. His technical breadth and depth support high-impact research in areas like pile foundations, coastal resilience, and seismic analysis of soils and structures.

CONCLUSION

Prof. Dongsheng Xu stands out as a visionary in geotechnical research and education, with a commitment to advancing civil infrastructure through innovation. His scientific rigor, leadership, and international collaboration make him a prominent voice in engineering. Through groundbreaking research in coral sand mechanics and smart sensing, he has impacted both academia and industry. His dedication to sustainability and infrastructure safety aligns with global priorities. With his proven record of excellence, he continues to influence future generations of engineers and set high standards in civil engineering research.

Felipe Campuzano-Diosa | Energy Efficiency | Best Researcher Award

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Felipe Campuzano-Diosa | Energy Efficiency | Best Researcher Award

King Abdullah University of Science and Technology - Saudi Arabia

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Felipe Campuzano-Diosa is a highly accomplished research scientist specializing in thermochemical energy conversion. Based at King Abdullah University of Science and Technology (KAUST), he contributes to clean energy advancements through cutting-edge research on combustion, pyrolysis, gasification, and fuel upgrading. His expertise spans both renewable and non-renewable resources, supporting sustainable energy solutions. With a career grounded in academic excellence and industrial collaboration, Campuzano-Diosa has developed a profound understanding of power systems and advanced fuel chemistry, making significant contributions to the fields of materials engineering and clean combustion technologies.

EDUCATION

Felipe Campuzano-Diosa holds a Ph.D. in Materials Engineering from the University of Antioquia, where he earned Summa Cum Laude distinction. He also completed an M.Sc. in Energy Systems from Pontificia Bolivariana University and a B.Sc. in Mechanical Engineering from the University of Antioquia. His academic projects focused on pyrolysis, fuel characterization, and combustion, laying a solid foundation for his future research in thermochemical processes. These degrees supported his transition into highly specialized fields such as waste-to-energy, advanced reactor design, and alternative fuel production.

PROFESSIONAL EXPERIENCE

Felipe has worked extensively in both academic and industrial research settings. At KAUST, he currently serves as a Research Scientist and previously worked as a Postdoctoral Fellow and Visiting Researcher. His experience includes collaboration with Air Products and Chemicals on projects such as ammonia cracking and vacuum oil residue gasification. Prior to KAUST, he contributed to reactor design and waste-to-energy projects at institutions in Colombia. Over the years, Felipe has supported technical and experimental activities, mentored students, and actively participated in collaborative international energy research.

RESEARCH INTEREST

Felipe’s research interests lie in thermochemical energy conversion, particularly in pyrolysis, gasification, and combustion processes. He focuses on converting waste into useful energy products, upgrading fuels, and studying their chemical and combustion characteristics. His work includes analyzing advanced fuel properties using FT-ICR MS, NMR, TGA, and GC-MS, and optimizing catalysts and reaction mechanisms. He is especially interested in sustainable energy technologies, non-conventional fuels, and material characterization for cleaner power generation, all directed toward achieving efficient and eco-friendly energy systems.

AWARD AND HONOR

Felipe Campuzano-Diosa has been recognized for his academic and research excellence throughout his career. He received the Summa Cum Laude distinction for his Ph.D. thesis and was awarded multiple scholarships from Colciencias and Pontificia Bolivariana University. His accomplishments also include a prestigious Young Researcher Scholarship and an English language scholarship for advanced academic communication. These honors underscore his dedication to scientific progress, innovation in engineering, and outstanding performance in both research and education.

RESEARCH SKILL

Felipe possesses extensive expertise in designing and operating pyrolysis and combustion reactors, fuel analysis, and advanced material characterization. His technical skills include using sophisticated analytical tools such as FT-ICR MS, SEM, TGA-FTIR, NMR, and GC-MS. He has also contributed to reactor optimization, emissions testing, and catalyst evaluation under extreme conditions. His multidisciplinary approach combines mechanical, chemical, and environmental engineering techniques, allowing him to lead and collaborate on diverse research initiatives in energy and material sustainability.

PUBLICATIONS

Title: Auger reactors for pyrolysis of biomass and wastes
Authors: F. Campuzano, R.C. Brown, J.D. Martínez
Journal: Renewable and Sustainable Energy Reviews, 2019

Title: On the distillation of waste tire pyrolysis oil: A structural characterization of the derived fractions
Authors: F. Campuzano, A.G.A. Jameel, W. Zhang, A.H. Emwas, A.F. Agudelo, ...
Journal: Fuel, 2021

Title: Fuel and chemical properties of waste tire pyrolysis oil derived from a continuous twin-auger reactor
Authors: F. Campuzano, A.G. Abdul Jameel, W. Zhang, A.H. Emwas, A.F. Agudelo, ...
Journal: Energy & Fuels, 2020

Title: Effects of ammonia addition on soot formation in ethylene laminar premixed flames
Authors: C. Shao, F. Campuzano, Y. Zhai, H. Wang, W. Zhang, S.M. Sarathy
Journal: Combustion and Flame, 2022

Title: Possibilities of carbon black recovery from waste tyre pyrolysis to be used as additive in rubber goods – a review
Authors: N. Cardona, F. Campuzano, M. Betancur, L. Jaramillo, J.D. Martínez
Journal: IOP Conference Series: Materials Science and Engineering, 2018

CONCLUSION

Felipe Campuzano-Diosa stands out as a dynamic researcher dedicated to advancing sustainable energy through thermochemical processes. With a strong foundation in engineering and an international research presence, he has contributed significantly to the fields of clean combustion and alternative fuels. His blend of technical depth, collaborative spirit, and innovation positions him as a thought leader in energy engineering. His career exemplifies a commitment to solving real-world energy challenges through scientific excellence and interdisciplinary research.

Yadian Xie | Materials Science | Best Researcher Award

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Yadian Xie - Materials Science and Engineering - Best Researcher Award

Guizhou Minzu University - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Yadian Xie is a dedicated researcher and academic professional based in Guiyang, Guizhou. He serves as a postdoctoral researcher, associate professor, and doctoral supervisor with extensive expertise in chemistry and material sciences. His scientific work spans cutting-edge innovations in low-dimensional materials, particularly black phosphorus. Over the years, Dr. Xie has led several prestigious research projects funded by national and provincial institutions. His dedication to excellence is reflected in his numerous awards and recognitions. With over 60 high-impact publications and multiple invention patents, Dr. Xie plays a vital role in bridging fundamental research with industrial applications.

EDUCATION

Dr. Yadian Xie earned his Ph.D. in Chemistry through a joint program between Université du Québec, Canada, and the National Center for Nanoscience and Technology, China. This cross-institutional academic background has equipped him with a solid foundation in advanced chemical engineering and nanoscience. His postdoctoral fellowship at Peking University further refined his research capabilities, especially in low-dimensional materials. His educational journey reflects a consistent trajectory toward innovation in material chemistry, making him a knowledgeable and skilled figure in his field. This academic experience provides the basis for his interdisciplinary research and mentoring of future scientists.

PROFESSIONAL EXPERIENCE

Since May 2020, Dr. Xie has served as an Associate Professor at the School of Chemical Engineering, Guizhou Minzu University. From 2017 to 2020, he completed a postdoctoral fellowship at Peking University. His academic career demonstrates a steady progression through significant research and teaching roles. At Guizhou Minzu University, he also contributes to guiding graduate students and supervising doctoral research. His responsibilities include teaching, developing research infrastructure, and leading government-funded projects. His dual roles as researcher and educator position him as a leading figure in chemical engineering education and scientific innovation in Guizhou and beyond.

RESEARCH INTEREST

Dr. Xie’s research primarily focuses on the large-scale synthesis and real-world applications of black phosphorus and other low-dimensional materials. He investigates their optical, electrical, and magnetic properties through both experimental and computational approaches. His work extends to application-oriented research on emerging materials used in batteries and gas sensors. His scientific inquiries aim to understand and exploit the structural behaviors of materials at the nanoscale. This multidisciplinary focus allows him to contribute significantly to materials science, energy storage, and environmental applications, making his research both foundational and practically relevant.

AWARD AND HONOR

Dr. Xie has earned several prestigious awards for his academic and scientific achievements. These include the First Prize for Higher Education Teaching Achievement in Guizhou and the Third Prize for Scientific and Technological Progress in the province. He was also named “Most Outstanding Science and Technology Worker” in Guizhou. Notably, he received recognition for a provincial “Golden Course” in Materials Science and led major innovation projects. His honors reflect a strong commitment to education, research, and technological advancement, highlighting his role as a key contributor to the scientific and academic communities in China.

RESEARCH SKILL

Dr. Xie possesses a wide range of research skills, including chemical vapor transport, photonic crystal synthesis, and computational modeling of low-dimensional materials. He has successfully managed several complex research projects funded by national and provincial agencies. His technical expertise includes developing innovative sensors, battery materials, and advanced alumina compounds. He is also proficient in academic writing, peer review, and patent development. These skills allow him to bridge the gap between theoretical materials science and practical applications, ensuring his research delivers measurable impact in both academia and industry.

PUBLICATIONS

Title: Pyridine-functionalized chiral polyoxometalates via in situ degradation
Authors: Yu Xia, Tao Zhang, Luyu Tian, Hailiang Hu, Gang Li
Journal: Journal of Molecular Structure (2025)

Title: Post-synthetic modification strategy to immobilize acidic units within metal-organic frameworks or covalent organic frameworks for boosted proton conductivity
Authors: Hailiang Hu, Yu Xia, Xin Wang, Yadian Xie, Gang Li
Journal: [Journal not specified in source – likely Chemistry or Materials journal, inferred]

Title: Scalable fabrication of graphene-basalt composite fabric via Layer-by-Layer deposition for efficient treatment of Cr(VI) − contaminated water
Authors: Hanqing Yu, Shijiao Li, Zheng Zeng, Xin Tong, Yadian Xie
Journal: Separation and Purification Technology (2025)

Title: Research progress on enhancing particulate matters removal enabled by triboelectric effect
Authors: Yi Dai, Huan Li, Qiyu He, Yadian Xie, Shuangxi Nie
Journal: [Journal not specified in source – possibly Environmental Science or Materials journal]

CONCLUSION

Yadian Xie exemplifies excellence in research, education, and innovation. His work not only enhances academic understanding but also translates to real-world industrial solutions. Through his leadership in high-impact projects and consistent scholarly output, he contributes to advancing both science and technology in China and globally. His mentorship of future researchers and commitment to teaching excellence solidify his role as a prominent figure in chemical engineering. As a recognized academic and innovator, Dr. Xie’s work continues to influence the development of new materials and sustainable technologies with broad societal impact.

YUNUS AHMED | Environmental Remediation | Best Researcher Award

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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.

Kazi Hafizur Rahman – Sustainability – Excellence in Research

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Kazi Hafizur Rahman - Sustainability - Excellence in Research

Department of Business Administration University of Global Village - Bangladesh

AUTHOR PROFILE

ORCID
GOOGLE SCHOLAR

SUMMARY

Md. Kazi Hafizur Rahman is a dynamic academic and independent researcher specializing in human resource management, sustainability, and innovation. With a passion for transformative impact and a strong background in education, journalism, and facilitation, he seamlessly integrates academic, research, and social engagement roles. His work spans across scholarly writing, active project leadership, and facilitation of youth empowerment programs. Known for his analytical acumen, Rahman is proficient in research tools and has contributed to reputed journals. His vision is rooted in societal development through education, sustainable strategies, and technology-led research.

EDUCATION

Rahman earned both his MBA and BBA in Management Studies from the University of Barishal, majoring in Human Resource Management. His postgraduate research focused on the integration of artificial intelligence in HRM practices to improve inclusivity and sustainable performance. Through this academic journey, he has developed a robust foundation in management theory and research, which fuels his ongoing contributions to scholarly work and applied research in organizational innovation and sustainability. His thesis and research interests align with cutting-edge technological trends and their influence on human resource development and performance metrics.

PROFESSIONAL EXPERIENCE

Currently serving as a Lecturer at the University of Global Village, Barishal, Rahman also works independently as a researcher. His past experiences include research assistant roles in government-funded projects focusing on climate change and tourism. He also held editorial positions in prominent news media and served as a facilitator in leadership training programs. His involvement in both academia and community initiatives reflects a unique blend of scholarly commitment and civic engagement. With a consistent record of project management and publication, Rahman actively shapes the discourse in HRM, sustainability, and educational innovation.

RESEARCH INTEREST

Rahman's research interests span across human resource practices, sustainability, circular economy, organizational innovation, and the role of artificial intelligence in corporate strategies. He is especially drawn to how digital transformation and AI integration can enhance organizational performance and societal inclusiveness. Other notable interests include smart learning, entrepreneurial behavior, green banking, and climate change economics. He is committed to generating insights that bridge the gap between theory and practice, targeting both academic impact and real-world relevance. His interdisciplinary approach enables him to explore emerging issues through a multifaceted lens.

AWARD AND HONOR

Md. Kazi Hafizur Rahman’s social action project, “Sustainable Urban Environmental Management,” was recognized at COP-26, showcasing his ability to lead impactful, award-winning initiatives. He also secured internal research grants, including a competitive fund from Ahsanullah University of Science and Technology. As a respected facilitator, Rahman was selected for leadership workshops by the British Council and The Hunger Project. His editorial and organizational roles in student and youth platforms have earned him accolades for leadership, integrity, and scholarly commitment. These recognitions highlight his blend of academic and social impact.

RESEARCH SKILL

Rahman is proficient in analytical tools such as SPSS, AMOS, and SmartPLS, enabling him to conduct robust empirical research. He is adept in structural equation modeling and data-driven hypothesis testing, particularly within the context of sustainability, organizational behavior, and HRM. Additionally, he conducts workshops on research methods and academic writing for students and peers. His strong command over qualitative and quantitative methodologies, combined with technical competence, allows him to deliver impactful research outcomes. His ability to manage complex data sets and draw actionable conclusions sets him apart as a research leader.

PUBLICATIONS

Title: Impact of green banking practices on green CSR and sustainability in private commercial banks: the mediating role of green financing activities
Authors: MAI Gazi, A Al Masud, S bin Kabir, NS Chaity, AR bin S Senathirajah, ...
Journal: Journal of Sustainability Research, Volume 6, Issue 4, 2024

Title: Paving the way of entrepreneurship for university students: the role of innovativeness, technological adaptability, and self-management, with risk-taking and family support as ...
Authors: MAI Gazi, AT Mim, AA Masud, MKH Rahman, MB Amin, ARS Senathirajah, ...
Journal: Cogent Education, Volume 12, Issue 1, 2025

Title: AI Capability and Sustainable Performance: Unveiling the Mediating Effects of Organizational Creativity and Green Innovation with Knowledge Sharing Culture as a Moderator ...
Authors: MAI Gazi, MKH Rahman, AA Masud, MB Amin, NS Chaity, A Senathirajah, ...
Journal: (Publication year: 2024) (Exact journal name not provided; please confirm)

Title: Sustainable embankment contribute to a sustainable economy: The impact of climate change on the economic disaster in coastal area
Authors: MAI Gazi, A Al Masud, MKH Rahman, MB Amin, M Emon, ...
Journal: Environmental Development, Volume 55, Article 101208, 2025

Title: The future of work: how (HRMPs) practices and employee skills will shape sustainable performance
Authors: AA Masud, MA Hossain, R Wu, TM Abir, GMS Hossain, MKH Rahman, ...
Journal: Environment, Development and Sustainability, 2025

Title: Sustainable Pathways to Circular Economy Adoption: Insights From the RMG Sector of Bangladesh
Authors: SB Chaity, N. S., Islam, K. M. Z., Masud, A. A., Islam, M. F., Rahman, M. K., ...
Journal: Business Strategy and the Environment, 2025

Title: Sustainable Economy and Sustainable Embankments Nexus: The Effects of Climate Change on the Economic Collapse of Coastal Regions
Authors: MAI Gazi, A Al Masud, MKH Rahman, M Bin
Journal: (Incomplete journal title; likely same or similar to Environmental Development)

CONCLUSION

Md. Kazi Hafizur Rahman exemplifies a new generation of scholars dedicated to the convergence of academic excellence, social progress, and innovation. With a strong educational foundation, prolific research output, and active societal involvement, he continues to shape impactful narratives across sustainability, HRM, and youth development. His methodological strength and publication record signify academic maturity, while his community engagements highlight empathy and leadership. As he advances in academia, Rahman aims to drive systemic transformation through informed research and ethical leadership. His journey is marked by dedication, foresight, and a clear vision for inclusive growth.

Tirivavi Moyo | Sustainable Development | Best Researcher Award

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Dr . Tirivavi Moyo | Sustainable Development | Best Researcher Award

Associate Professor at Nelson Mandela University, South Africa

Dr. Tirivavi Moyo is a highly accomplished academic and researcher in Construction Economics, with extensive experience in both industry and academia across Zimbabwe, Namibia, and South Africa. He has demonstrated strong leadership through the supervision of over 70 honours and numerous MSc dissertations, many of which focus on pressing industry issues such as sustainability, labour productivity, and technological innovation. His work is notable for its applied impact and relevance to real-world construction challenges. Dr. Moyo has held several academic leadership roles, contributing significantly to curriculum development and postgraduate research coordination. While there is limited detail on peer-reviewed publications and external research funding, his research supervision outcomes and academic service reflect a deep commitment to advancing knowledge and practice in the built environment. With enhanced international dissemination and publication, he would be even more competitive. Overall, he is a strong candidate for the Best Researcher Award based on his impactful, practice-oriented contributions.

Professional Profile 

Education🎓

Dr. Tirivavi Moyo holds a PhD in Construction Economics, demonstrating advanced expertise in the intersection of construction management, cost control, and economic sustainability within the built environment. His academic journey reflects a strong foundation in quantity surveying and construction project management, further supported by professional recognition as a Member of the Royal Institution of Chartered Surveyors (MRICS). Over the years, he has developed and delivered academic content across undergraduate, honours, and postgraduate levels at various institutions, including the National University of Science and Technology (Zimbabwe), Namibia University of Science and Technology, and Nelson Mandela University (South Africa). His teaching portfolio includes modules such as Construction Economics, Research Methods, Construction for Sustainability, and Project Environment and Policy. Dr. Moyo’s education is not only grounded in theory but also shaped by practical industry experience, which enriches his academic delivery and supervision of student research, ensuring strong alignment with industry standards and global best practices.

Professional Experience📝

Dr. Tirivavi Moyo has over two decades of professional experience spanning both the construction industry and academia. He began his career as an Estimator and Quantity Surveyor at MCG Construction and Engineering, where he managed cost estimation, tendering, and project valuations for major housing and industrial projects valued at over US$7 million. He later served as a Project Manager at Gateway Construction, overseeing community development projects worth US$3 million. Transitioning into academia, Dr. Moyo has held lecturing and senior academic positions at institutions such as the National University of Science and Technology (Zimbabwe), Namibia University of Science and Technology, and Nelson Mandela University. His roles have included teaching, research supervision, curriculum development, and academic leadership. He has coordinated numerous postgraduate research projects and held administrative positions such as Examinations and Postgraduate Coordinator. This blend of industry and academic experience positions him as a well-rounded professional with deep practical insight and research acumen.

Research Interest🔎

Dr. Tirivavi Moyo’s research interests lie at the intersection of construction economics, project management, and sustainable development within the built environment. He is particularly focused on addressing practical challenges in the construction industry through applied research, including areas such as labour productivity, construction cost management, and environmental sustainability. His work explores innovative strategies like the adoption of lean construction, Building Information Modelling (BIM), virtual and augmented reality, and wellness programs to improve efficiency and worker well-being. Dr. Moyo is also deeply engaged in examining social dimensions of construction, including gender equality and workforce training. His research consistently aims to align academic inquiry with real-world industry needs, especially within developing contexts like Zimbabwe and southern Africa. With a strong track record of supervising student research on these themes, Dr. Moyo is committed to advancing knowledge that not only contributes to academic literature but also fosters sustainable and inclusive growth in the construction sector.

Award and Honor🏆

Dr. Tirivavi Moyo has earned recognition for his outstanding contributions to academia and the construction industry through various academic and professional honors. While specific awards are not explicitly listed in his profile, his consistent leadership in supervising high-quality student research—resulting in numerous distinctions at both honours and MSc levels—highlights his excellence in mentorship and research guidance. His appointment as an Associate Professor and previous roles as Examinations Coordinator, Postgraduate Coordinator, and Curriculum Review Lead further reflect the trust and recognition he has earned within academic institutions. In addition, his membership in the prestigious Royal Institution of Chartered Surveyors (MRICS) underscores his professional credibility and standing in the international construction community. Dr. Moyo’s achievements in delivering impactful, industry-relevant research and leading academic programs across institutions in Zimbabwe, Namibia, and South Africa stand as a testament to his dedication, earning him respect and acknowledgment from both peers and students in the academic and professional realms.

Research Skill🔬

Dr. Tirivavi Moyo possesses strong and well-rounded research skills developed through years of academic practice and industry engagement. His expertise spans the full research cycle—from conceptualization and proposal development to data collection, analysis, and dissemination. He demonstrates particular strength in applied and empirical research, with a focus on solving real-world problems in the construction industry. Dr. Moyo is proficient in both qualitative and quantitative methodologies, enabling him to supervise a wide range of research topics including sustainability, labour management, construction technology adoption, and project performance. His ability to guide students toward producing high-quality dissertations—many of which have received distinctions—speaks to his skill in mentoring and critical evaluation. In addition, his involvement in curriculum development and internal moderation indicates a deep understanding of academic standards and research rigor. Through his work, Dr. Moyo consistently bridges theory and practice, making his research highly relevant to both academia and industry stakeholders.

Conclusion💡

Tirivavi Moyo’s research in construction economics has made a significant impact on the advancement of sustainable construction practices, labour productivity, and social equity in the built environment. His work bridges industry practice and academic scholarship, with a strong emphasis on improving construction project delivery through the integration of decent work principles, innovative technologies, and sustainable development strategies. His continued contributions are shaping a more resilient, inclusive, and efficient construction sector in Southern Africa and beyond.

Publications Top Noted✍

  • Title: Factors affecting labor productivity on building projects in Zimbabwe
    Authors: B. Chigara, T. Moyo
    Year: 2014
    Citations: 107

  • Title: An analysis of cost management strategies employed by building contractors on projects in Zimbabwe
    Authors: B. Chigara, T. Moyo, F.H. Mudzengerere
    Year: 2013
    Citations: 58

  • Title: Factors affecting the delivery of optimum health and safety on construction projects during the COVID-19 pandemic in Zimbabwe
    Authors: B. Chigara, T. Moyo
    Year: 2022
    Citations: 45

  • Title: Barriers to lean construction implementation in Zimbabwe
    Authors: T. Moyo, B. Chigara
    Year: 2023
    Citations: 33

  • Title: Decent working conditions for improved construction workers’ productivity on Zimbabwean building projects
    Authors: T. Moyo, G. Crafford, F. Emuze
    Year: 2019
    Citations: 31

  • Title: Work measurement techniques utilized by the building industry in the Midlands province of Zimbabwe
    Authors: T. Moyo, E. Mangore, B. Chigara
    Year: 2014
    Citations: 18

  • Title: Overview of operational and regulatory framework for occupational safety and health management in Zimbabwe’s construction industry
    Authors: B. Chigara, T. Moyo
    Year: 2014
    Citations: 14

  • Title: Expected competencies of construction project managers in Zimbabwe
    Authors: T. Moyo, B. Chigara
    Year: 2023
    Citations: 13

  • Title: People-centred management for improving construction workers’ productivity in Zimbabwe
    Authors: T. Moyo, G. Crafford, F. Emuze
    Year: 2021
    Citations: 11

  • Title: Critical factors affecting workplace well-being at construction sites across countries with different income levels
    Authors: M.M. Omer, T. Moyo, A. Al-Otaibi, A.M. Alawag, A. Rizal Alias, R.A. Rahman
    Year: 2025
    Citations: 7

  • Title: Development of workplace well-being indexes at construction sites
    Authors: M.M. Omer, T. Moyo, A.R. Alias, R.A. Rahman
    Year: 2024
    Citations: 7

laila taoufiq | Earthquake Engineering | Women Researcher Award

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Ms . laila taoufiq | Earthquake Engineering | Women Researcher Award

professor at ecole polytechnique d’agadir , Morocco

Dr. Laila Taoufiq is a highly capable and dedicated researcher in the field of materials physics, with a strong focus on sustainable construction and environmental engineering. Her work addresses pressing issues such as structural resilience, indoor air quality, and the recycling of industrial waste in building materials. With six peer-reviewed publications, including recent contributions on the 2023 Al Haouz earthquake and radioactivity in indoor environments, her research demonstrates both scientific relevance and societal impact. Dr. Taoufiq combines academic rigor with practical teaching across multiple engineering institutions, bringing valuable expertise in structural modeling and materials testing. While her international exposure and publication volume could be further developed, her contributions to applied research and education are commendable. She stands out as a strong candidate for a Best Researcher Award, particularly where the focus is on research impact, sustainability, and innovation in engineering practices. Her academic dedication and real-world focus merit formal recognition.

Professional Profile

Education🎓

Dr. Laila Taoufiq has a solid and multidisciplinary academic background in engineering and materials science. She earned her Doctorate in Materials Physics from the University Chouaib Doukkali, El Jadida, in 2018, where she conducted extensive research on the environmental and technical feasibility of recycling industrial waste, such as ash, in construction materials. Her doctoral thesis was awarded with high honors and jury congratulations. Prior to that, she completed her engineering degree in 2011 from the prestigious Ecole Nationale Supérieure des Mines de Rabat (ENIM), specializing in materials and structural engineering. Her academic journey began with a Master’s degree in Materials Science from the Faculty of Sciences and Technologies (FST) in Settat between 2005 and 2009. This well-rounded education has equipped her with both theoretical knowledge and practical skills in material behavior, structural analysis, and sustainable engineering, forming a strong foundation for her current research and teaching activities.

Professional Experience📝

Dr. Laila Taoufiq has accumulated extensive professional experience in both research and higher education. Since September 2022, she has been serving as a lecturer and researcher at the École Polytechnique d’Agadir, where she teaches key engineering subjects such as reinforced and prestressed concrete, structural analysis, and modeling using structural software like Robot. Her teaching approach is highly practical, incorporating lab work and applied mechanics. Prior to this, she held teaching positions at several respected institutions, including ENSA Agadir, ESEFA, and ENSAM Casablanca, where she led courses and laboratory sessions in construction materials, solid mechanics, and resistance of materials. Her hands-on teaching style involves conducting a wide range of technical experiments in concrete behavior, materials testing, and structural analysis. Dr. Taoufiq’s professional experience reflects a strong integration of academic knowledge and real-world application, making her a valuable contributor to engineering education and applied research in sustainable building practices.

Research Interest🔎

Dr. Laila Taoufiq’s research interests lie at the intersection of sustainable construction, environmental engineering, and materials science. She focuses on the reuse and valorization of industrial by-products, such as coal ash and bottom ash, in concrete manufacturing to promote eco-friendly and cost-effective construction solutions. Her work aims to reduce environmental impact while improving the mechanical and radiological properties of construction materials. She is also deeply engaged in structural safety research, as evidenced by her recent study on building failures during the 2023 Al Haouz earthquake. Additionally, Dr. Taoufiq investigates indoor air quality and natural radioactivity exposure in built environments, contributing to public health and safety. Her research combines experimental lab work, field assessments, and structural modeling to develop practical solutions for current engineering challenges. Through these interdisciplinary efforts, she strives to enhance building performance, environmental sustainability, and resilience, making her work highly relevant to modern civil and environmental engineering needs.

Award and Honor🏆

Dr. Laila Taoufiq has been recognized for her academic excellence and research contributions throughout her career. Most notably, she was awarded a Doctorate in Materials Physics with the highest distinction—“Très Honorable avec Félicitations du Jury”—by the University Chouaib Doukkali in 2018, a clear acknowledgment of the quality, relevance, and originality of her doctoral research. Her thesis on the technical and environmental feasibility of valorizing industrial ashes in construction materials earned praise for its innovative approach to sustainability in civil engineering. While no specific awards beyond her doctoral honors are listed, her consistent involvement in impactful research and her active teaching roles at prominent Moroccan engineering institutions demonstrate professional recognition and trust in her expertise. Dr. Taoufiq’s growing portfolio of peer-reviewed publications, particularly on high-impact topics such as earthquake resilience and indoor environmental health, further establishes her as a respected figure in her field and a deserving candidate for future academic and research honors.

Research Skill🔬

Dr. Laila Taoufiq possesses a diverse and well-developed set of research skills that span experimental work, data analysis, and applied engineering. She is highly skilled in the characterization of construction materials, particularly in assessing mechanical, environmental, and radiological properties. Her expertise includes designing and conducting laboratory experiments, such as concrete strength testing, adsorption of heavy metals, and evaluating the performance of recycled materials like coal ash in construction applications. Dr. Taoufiq is proficient in using analytical tools and structural modeling software, such as Autodesk Robot, for simulating and analyzing the behavior of concrete and steel structures under different loading conditions. Her research is grounded in real-world applications, often addressing critical challenges such as earthquake damage assessment, indoor air quality, and sustainable construction practices. She also demonstrates strong abilities in academic writing, data interpretation, and interdisciplinary collaboration, making her a capable and solution-oriented researcher in materials science and structural engineering.

Conclusion💡

Dr. Laila Taoufiq is a strong candidate for the Women Researcher Award, especially in contexts that emphasize research relevance, societal impact, sustainability, and interdisciplinary contributions. Her work is technically sound, environmentally significant, and aligned with global development goals. With greater international engagement and expanded publication output, she has the potential to emerge as a leading figure in her field. Her combination of academic excellence, teaching, and research makes her highly deserving of recognition under this award.

Publications Top Noted✍

  • Title: Structural failure of reinforced concrete buildings: The case of Al Haouz earthquake on 8 September 2023, Morocco

  • Authors:

    • L. Taoufiq, Laila

    • M. Chourak, Mimoun

    • E.M. Guendouli, El Mehdi

    • F.Z. Arrakhiz, Fatimaezzahra Z.

  • Journal: Structures (Published by Elsevier)

  • Year: 2025

  • Citation Format (APA Style):
    Taoufiq, L., Chourak, M., Guendouli, E. M., & Arrakhiz, F. Z. (2025). Structural failure of reinforced concrete buildings: The case of Al Haouz earthquake on 8 September 2023, Morocco. Structures. (Link not available)

 

Naadia Tarek – Rheology of materials – Environmental Leadership in Civil Engineering Award

Published on by Civil Engineering Awards

Naadia Tarek - Rheology of materials - Environmental Leadership in Civil Engineering Award

Polytechnic School of Architecture and Urbanism - Algeria

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Naadia Tarek is an accomplished civil engineer and Associate Professor specializing in rheology and mechanics of self-compacting concrete. With extensive academic and research experience, she plays a key role as a lecturer at the Polytechnic School of Architecture and Urbanism (EPAU) and is an active member of the Civil Engineering Laboratory (LBE) at USTHB. Her contributions to material mechanics and concrete optimization have made a significant impact on the field. Naadia is widely recognized for her scientific rigor and has contributed meaningfully to innovative techniques for evaluating and improving the behavior of advanced concrete systems.

EDUCATION

Naadia Tarek earned her University Habilitation in Civil Engineering from USTHB in January 2021. Her academic progression reflects a deep commitment to civil engineering with a focus on materials science. She has pursued advanced research and academic development throughout her educational career, reinforcing her qualifications to lead studies on concrete rheology and optimization. Her educational background forms the foundation for her professional contributions to academia and engineering practice. She is known for integrating experimental design methods into engineering education and research, guiding students and colleagues in evidence-based technical approaches and research methodologies.

PROFESSIONAL EXPERIENCE

Naadia Tarek currently holds the academic rank of Associate Professor (Class A) and serves as a teacher-researcher at EPAU. She contributes actively to the academic environment through both teaching and research while mentoring students and collaborating with peers. Her affiliation with the Civil Engineering Laboratory at USTHB under the Mechanics of Materials research team allows her to engage in cutting-edge experimentation and application. Her experience bridges academic excellence with hands-on material science research, emphasizing interdisciplinary collaboration and field-based innovation. Naadia’s teaching portfolio includes core civil engineering subjects, material characterization, and modern construction techniques.

RESEARCH INTEREST

Naadia Tarek’s research interests lie in the rheology and mechanics of self-compacting concrete (SCC). She specializes in concrete rheology and the use of experimental design techniques for material optimization. Her work contributes to more sustainable, efficient, and resilient construction materials. She is particularly focused on enhancing the flow and mechanical performance of steel fiber-reinforced concrete, using additives such as tuff and marble powders. Her innovative research seeks to reduce environmental impact while improving structural behavior. Naadia’s work combines laboratory experimentation with computational modeling to develop more durable and performance-oriented construction solutions.

AWARD AND HONOR

Naadia Tarek was awarded the University Habilitation in Civil Engineering, a significant academic honor recognizing her advanced expertise and contributions to the field. This milestone underscores her authority in civil engineering education and research. Her recognition as an Associate Professor further validates her academic excellence and commitment to material science innovation. Her research has gained national and international attention, leading to collaborations and publications in high-impact journals. Through her teaching and research, she continues to earn respect and acknowledgment from academic peers and professional organizations dedicated to advancing civil engineering practices.

RESEARCH SKILL

Naadia Tarek demonstrates expertise in advanced experimental design, rheological analysis, and mechanical testing of concrete. Her skills encompass the full cycle of material research—from theoretical formulation to experimental validation. She is proficient in optimizing complex mixtures such as steel fiber-reinforced SCC using statistical and empirical methods. Naadia applies robust methodologies to study the flow behavior, setting characteristics, and structural integrity of new concrete formulations. Her proficiency with lab instrumentation, data interpretation, and simulation models positions her as a leading expert in concrete innovation and applied mechanics.

RECENT PUBLICATIONS

  • Title: Optimization of Steel Fiber-Reinforced Self-Compacting Concrete with Tuff Powder
    Authors: T. Naadia, D. Gueciouer
    Journal: Construction and Building Materials, Vol. 474, Article 140759, 2025

  • Title: Formulation and Characterization of Steel Fiber Reinforced Self-Compacting Concrete (SFRSCC) Based on Marble Powder
    Authors: T. Naadia, D. Gueciouer, Y. Ghernouti
    Journal: Selected Scientific Paper - Journal of Civil Engineering, 2025

  • Title: Rheological and Mechanical Optimization of a Steel Fiber Reinforced Self-Compacting Concrete Using the Design of Experiments Method
    Authors: D. Gueciouer, G. Youcef, N. Tarek
    Journal: European Journal of Environmental and Civil Engineering, Vol. 26, Issue 3, pp. 1097–1117, 2022

  • Title: Development of a Measuring Procedure of Rheological Behavior for Self Compacting Concrete
    Authors: T. Naadia, Y. Ghernouti, D. Gueciouer
    Journal: Journal of Advanced Concrete Technology, Vol. 18, Issue 6, pp. 328–338, 2020

CONCLUSION

Naadia Tarek exemplifies the integration of academic rigor and practical innovation in civil engineering. Her leadership in concrete rheology and experimental optimization has led to significant advancements in material performance and construction practices. As an educator, she inspires future engineers; as a researcher, she advances the frontiers of sustainable building materials. Her academic honors, skilled experimentation, and influential publications distinguish her as a respected figure in her field. Naadia’s ongoing contributions continue to impact the scientific community, positioning her as a leading expert in material behavior and civil infrastructure innovation.

Wang Yanfen – Mining engineering – Best Researcher Award

Published on by Civil Engineering Awards

Wang Yanfen - Mining engineering - Best Researcher Award

Anhui University of Science& Technology - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Wang Yanfen is a dedicated researcher specializing in geotechnical engineering and nanomaterials, known for bridging advanced materials research with real-world underground construction applications. His career reflects a commitment to sustainable innovation, particularly in the development of grouting materials and surface-enhanced technologies. With a prolific record of high-impact publications and patents, he has established himself as a leader in the fields of cement composites, photocatalytic materials, and anchoring mechanisms. His work supports infrastructure durability and environmental responsibility, serving as a foundation for future advancements in underground construction, waste utilization, and nanotechnology-driven engineering materials.

EDUCATION

Wang Yanfen earned his Ph.D. in Materials Science and Engineering from Anhui University (2016–2020). He previously completed his Master’s Degree in Mineral Processing Engineering and a Bachelor’s Degree in Inorganic Non-metallic Materials Engineering at Anhui University of Science and Technology. His academic training grounded him in materials development, characterization, and performance optimization. His doctoral research shaped his focus on advanced grouting materials, contributing to pioneering techniques in full-length anchoring systems and photocatalytic composites. These academic milestones have prepared him for a distinguished research career rooted in applied material science for geotechnical and environmental sustainability.

PROFESSIONAL EXPERIENCE

Wang Yanfen is actively involved in high-level research projects, serving as principal investigator on multiple national and provincial initiatives in China. His professional roles encompass the development of next-generation grouting materials, anchoring mechanisms, and nanostructured composites. His leadership in funded research includes major projects under the National Natural Science Foundation and the Anhui Provincial Science and Technology Department. Through these roles, he has designed and implemented cutting-edge engineering solutions for mining safety and material performance. His practical contributions have significantly advanced the integration of innovative materials into underground infrastructure and environmental remediation systems.

RESEARCH INTEREST

His research focuses on geotechnical material innovations, especially in the development of ultrafine cement-based grouting systems and fiber-reinforced anchoring technologies. Wang is also deeply invested in the photoelectrochemical properties of nanomaterials such as TiO₂-based composites, exploring their utility in energy, sensing, and environmental applications. Another key area is the resource utilization of industrial solid waste, aiming to transform waste into high-performance construction materials. His interdisciplinary approach bridges mineral engineering, material science, and environmental sustainability, making his research highly applicable to mining safety, infrastructure reinforcement, and green chemistry solutions.

AWARD AND HONOR

Wang Yanfen has been entrusted with prestigious roles as a principal investigator across nationally and provincially funded research programs. His work has led to multiple patents in China and South Africa, reflecting global recognition of his innovative contributions. His published articles appear in high-impact journals, including Applied Catalysis B: Environmental and Journal of the American Ceramic Society, often ranking in top-tier categories. These accomplishments underscore his scientific influence in photocatalysis, grouting composites, and nanostructured materials. While individual award titles aren’t listed, the breadth of recognition through funding, patents, and publications highlights his distinguished research standing.

RESEARCH SKILL

Wang possesses advanced expertise in synthesizing nanomaterials, characterizing grouting composites, and enhancing mechanical and photocatalytic properties through nanostructures. He is proficient in techniques like SEM, XRD, BET, UV-Vis spectroscopy, and electrochemical analysis for performance assessment. His skills span surface modification, SERS-active substrate fabrication, and full-length anchoring mechanisms in underground engineering. He also leads experimental design in evaluating hydration behavior, structural reinforcement, and fluidity of cementitious materials. His methodological strength lies in integrating laboratory synthesis with field-applicable technologies, ensuring that scientific discoveries translate into engineering practices for safer, stronger, and more sustainable infrastructure.

RECENT PUBLICATIONS

Title: Grazing exclusion enriches arbuscular mycorrhizal fungal communities and improves soil organic carbon sequestration in the alpine steppe of northern Xizang
Authors: Y. Tang, C. Zhou, K. Chen, ... B. Ji, J. Zhang
Journal: Journal of Integrative Agriculture, 2025

Title: Nitrogen availability in soil controls uptake of different nitrogen forms by plants
Authors: M. Liu, X. Xu, W. Wanek, ... H. Ouyang, Y. Wang Yanfen
Journal: New Phytologist, 2025

Title: Microbial nitrification inhibitor enhances alpine grassland productivity through narrowing plant niche breadth by utilizing more ammonium
Authors: L. Cui, K. Xue, J. Dong, ... Y. Hao, Y. Wang Yanfen
Journal: Biology and Fertility of Soils, 2025

Title: The Decarbonizing Strategies of China’s Iron and Steelmaking Industry: A Comprehensive Perspective
Authors: Z. Wei, K. Xue, G. Hu, Y. Wu, Y. Wang Yanfen
Journal: Sustainability (Switzerland), 2024

Title: Influence of calcination temperature of industrial by-product gypsum on sulphoaluminate cement-based grouting material
Authors: J. Ai, Y. Wang Yanfen, X. Cheng, ... X. Meng, S. Huang
Journal: Construction and Building Materials, 2025

CONCLUSION

Wang Yanfen's profile exemplifies a rare blend of scientific rigor and practical innovation. His contributions to cement-based materials, nanocomposite photocatalysts, and sustainable engineering solutions address pressing challenges in underground construction and environmental stewardship. He consistently translates research into real-world applications, as evidenced by his patents and funded projects. Wang’s expertise continues to shape safer mining practices, high-performance infrastructure materials, and greener industrial technologies. As he moves forward, his multidisciplinary knowledge positions him as a thought leader in integrating nanotechnology with structural engineering and sustainability science.

Fatma Zehra Çakıcı – Architecture – Best Researcher Award

Published on by Civil Engineering Awards

Fatma Zehra Çakıcı - Architecture - Best Researcher Award

Atatürk University - Turkey

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Prof. Dr. Fatma Zehra Çakıcı is a leading academic in architectural sciences at Atatürk University, specializing in building technologies, heritage preservation, and energy-efficient design. Her work spans teaching, research, and practice, with over two decades of contributions in architectural education, building energy performance, and cultural heritage conservation. She combines scientific rigor with design innovation, reflected in her national and international publications, patents, and funded projects. As a faculty leader, researcher, and practitioner, Prof. Çakıcı bridges historical context with modern architecture, offering sustainable, accessible, and inclusive solutions for contemporary design and urban challenges.

EDUCATION

Prof. Dr. Çakıcı earned her Ph.D. in Building Sciences from Middle East Technical University, where she developed a performance evaluation program for energy-efficient buildings. She previously completed her master's in deconstruction processes and sustainability in architecture. Her educational foundation includes an undergraduate degree in architecture from Selçuk University. This academic journey allowed her to combine theoretical, technical, and historical approaches to architecture. Her focus on environmental responsiveness, cultural continuity, and user-centered design deeply influences her scholarly and professional work, enabling her to contribute to various aspects of sustainable architecture and adaptive reuse of historic structures.

PROFESSIONAL EXPERIENCE

Prof. Çakıcı has held academic roles at Atatürk University since 2013, rising through positions from Assistant to Full Professor. Her career also includes research assistantships at METU and a visiting scholar appointment at the Karlsruhe Institute of Technology in Germany. She leads projects on building conservation, energy-efficient systems, and cultural heritage. She also directs administrative units, serves on academic boards, and engages in national architecture competitions. Outside academia, she has worked as an architect in private practice and founded FZC Architecture and Design Consultancy. Her professional portfolio reflects a balance between education, research, and practical design implementation.

RESEARCH INTEREST

Prof. Çakıcı’s research interests include building energy performance, historic preservation, architectural sustainability, and digital documentation of cultural heritage. She has pioneered work on energy-efficient design in cold climates, building envelope thermography, and material analysis in heritage structures. Her studies also address accessibility in public buildings, sustainable urban planning, and smart architectural systems. She integrates theory with field applications, using simulation tools and hands-on restoration work. Her research supports adaptive reuse, climate-sensitive architecture, and policy development. Prof. Çakıcı’s interdisciplinary work influences environmental sustainability and conservation practices in both architectural education and professional design.

AWARD AND HONOR

Prof. Çakıcı has received several honors including first and third-place awards for community-based research at Atatürk University and national recognition for accessibility in university design. She earned the Presidential Special Award in Architecture and has received awards in national design competitions. These accolades reflect her scholarly impact and her commitment to integrating innovation with cultural sensitivity. Her project leadership in EU-funded and national scientific initiatives highlights her research excellence and international collaboration. Through her sustained contributions, she has established a respected academic and professional presence in the fields of architecture, heritage, and sustainable design.

RESEARCH SKILL

Prof. Çakıcı possesses advanced skills in architectural design, energy simulation, historic material analysis, and digital documentation. She utilizes infrared thermography, simulation software, and typological analysis for evaluating existing buildings. Her methodological expertise includes graph theory for spatial analysis, data-driven design decision-making, and IoT integration for environmental systems. She has extensive experience leading multidisciplinary teams on funded projects and coordinating architectural conservation efforts. Prof. Çakıcı also contributes to patent development and design-based innovation in heritage restoration and sustainability. Her research capabilities support high-level problem-solving in architecture through scientific, contextual, and user-responsive methodologies.

RECENT PUBLICATIONS 

  • Title: Net Positive Energy Buildings in Architectural Context
    Authors: Ç. Takva, B. Çalışkan, F. Çakıcı
    Journal: Journal of Asian Scientific Research, 12 (3), 2022

  • Title: Accessibility analysis of public buildings with graph theory and the space syntax method: government houses
    Authors: B.N. Keleş, Ç. Takva, F.Z. Çakıcı
    Journal: Journal of Asian Architecture and Building Engineering, 24 (1), 199–213, 2025

  • Title: Restoration in the discipline of architecture: a bibliometric analysis of research trends since 2000
    Authors: M. Kasapoğlu, F.Z. Çakıcı
    Journal: Gazi University Journal of Science Part B: Art Humanities Design and Planning, 2023

  • Title: Climate-sensitive Design in Traditional Residential Architecture: Kars Karakurt Houses
    Authors: F. Çakıcı, Ç. Takva
    Journal: International Journal of Built Environment and Sustainability, 10 (3), 2023

  • Title: Thermal Analysis of the Building Envelope with Infrared Thermography and Simulation in Educational Buildings in the Cold Climate Region
    Authors: Ç. Takva, F.G. Takva, F.Z. Çakıcı
    Journal: Buildings, 15 (11), Article 1759, 2025

  • Title: Erzurum Ulu Cami Üzerine Kronolojik Bir Değerlendirme
    Authors: M. Kasapoğlu, F.Z. Çakıcı
    Journal: Modular Journal, 7 (1–2), 95–118, 2024

CONCLUSION

Prof. Dr. Fatma Zehra Çakıcı is a multifaceted scholar and architect whose work merges sustainability, technology, and cultural heritage in architecture. Through academic leadership, research innovation, and practical design, she has significantly advanced knowledge in energy-efficient design, conservation methods, and architectural education. Her diverse roles in administration, project coordination, and publishing demonstrate her dedication to both academic excellence and social impact. With a vision rooted in scientific rigor and cultural sensitivity, Prof. Çakıcı continues to shape the future of architecture by integrating traditional values with cutting-edge design practices and sustainability principles.