Chrysa Politi | Material Design | Best Researcher Award

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Ms Chrysa Politi | Material Design | Best Researcher Award

Senior Researcher, National Technical University of Athens, Greece

Chrysa Politi is a dedicated researcher and PhD candidate at the National Technical University of Athens (NTUA), focusing on energy optimization in buildings through advanced deep learning algorithms. With a rich academic and professional background, she has made significant contributions to renewable energy, sustainable construction, and industrial decarbonization. She has authored several impactful publications and actively collaborates with researchers worldwide, consistently driving innovations in the energy sector.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Academic Background and Technical Expertise
    Chrysa Politi holds a BSc and MSc in Mechanical Engineering with a focus on Energy Engineering from the National Technical University of Athens (NTUA), a prestigious institution known for its rigorous programs.
  2. Research Excellence
    • Contributed to energy optimization and sustainability, particularly in buildings, using advanced deep learning algorithms.
    • Published extensively in high-impact journals, with eight peer-reviewed publications cited 55 times, demonstrating significant scholarly impact.
    • Strong focus on innovative topics, such as CO₂ hydrogenation for methanol production, hybrid energy storage, and decarbonization in industrial applications.
  3. Collaborative and Multidisciplinary Approach
    • Co-authored papers with researchers across disciplines, showing her ability to collaborate effectively within multidisciplinary teams.
    • Contributions to decision-making models and district-level energy control highlight her practical applications in real-world challenges.
  4. Professional Experience
    • Six years at the Laboratory of Metallurgy, NTUA, advancing innovative technologies for sustainable energy.
    • Internship at TÜV Hellas, gaining valuable industry experience in certification processes, adding a practical dimension to her academic profile.
  5. Metrics of Academic Influence
    • H-index of 3, a notable metric for a researcher at her career stage.
    • Steady citation growth, including articles with up to 37 citations, indicates strong research uptake and relevance.

AREAS FOR IMPROVEMENT

  1. Broader Industry Collaboration
    While Chrysa has strong academic credentials, additional partnerships with leading industry stakeholders could enhance the real-world application and scalability of her research.
  2. Leadership in Research Projects
    Leading independent projects or serving as the principal investigator could strengthen her profile, reflecting her ability to guide large-scale research initiatives.
  3. Visibility in International Forums
    Increased participation in global conferences and obtaining international fellowships or awards could further establish her presence in the global academic community.
  4. Diversification of Funding Sources
    Securing competitive research grants would reflect her ability to attract funding and manage resources effectively.

EDUCATION

🎓 National Technical University of Athens (NTUA)

  • BSc & MSc in Mechanical Engineering, Energy Engineering (2013–2018)
    Chrysa Politi excelled in her studies at NTUA, earning dual degrees in Mechanical and Energy Engineering. Her academic focus included thermodynamics, energy systems, and sustainable design, which laid the foundation for her groundbreaking PhD research.

EXPERIENCE

🏛️ Laboratory of Metallurgy, NTUA

  • Researcher & PhD Student (May 2020–Present): Specializing in energy optimization using deep learning.
  • Researcher (October 2018–Present): Worked on sustainability projects and CO₂ utilization.
    🌐 TÜV Hellas
  • Internship Trainee (June 2017–August 2017): Gained hands-on experience in personnel certification processes.

AWARDS AND HONORS

🏆 Recognized for her contributions to energy optimization and sustainability research.
🎖️ Recipient of the NTUA Research Excellence Award.
📜 Honored with Best Paper Awards for innovative publications.
🌟 Acknowledged for her work in sustainable decarbonization strategies at international conferences.

RESEARCH FOCUS

🔬 Chrysa Politi’s research is centered on energy optimization in buildings using deep learning algorithms. Her studies explore hybrid energy storage materials, industrial decarbonization, and sustainable energy transition through CO₂ capture and utilization, advancing practical applications in energy systems.

PUBLICATION TOP NOTES

📘 Thermodynamic and Kinetic Analysis of a CO₂ Hydrogenation Pilot Scale Reactor for Efficient Methanol Production
📗 Transforming CO₂ into Synthetic Fuels: Modeling, Simulation, and Optimization Analysis of Methanol Production from Industrial Wastes
📙 Data-Driven Integrated Decision Model for Analyzing Energetic Behavior of Innovative Construction Materials Capable of Hybrid Energy Storage
📘 LCA Analysis Decarbonization Potential of Aluminum Primary Production by Applying Hydrogen and CCUS Technologies
📗 Multi-Model Assessment for Secondary Smelting Decarbonization: The Role of Hydrogen in the Clean Energy Transition
📙 Carbon Capture Utilization and Storage in Extractive Industries for Methanol Production
📘 A Multilevel Control Approach to Exploit Local Flexibility in Districts Evaluated Under Real Conditions
📗 Energym: A Building Model Library for Controller Benchmarking

CONCLUSION

Chrysa Politi is a highly qualified and promising researcher whose contributions to energy optimization, sustainable materials, and hydrogen economy technologies make her a strong candidate for the Best Researcher Award. Her work exhibits innovation, a solid theoretical foundation, and practical applicability. By addressing areas for improvement, such as enhancing her leadership roles and international collaborations, she could further solidify her position as a leading researcher in her field.

Negar Heidari Matin | Sustainable Buildings | Best Researcher Award

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Dr Negar Heidari Matin | Sustainable Buildings | Best Researcher Award

Professor, University of Oklahoma, United States

Negar Heidari Matin is an Assistant Professor at the Gibbs College of Architecture, University of Oklahoma. She specializes in architectural technology, focusing on responsive autonomous intelligent façade systems, human comfort, smart materials, and interior architecture. As the Director of the High-Performance Interior Architecture Lab, she integrates innovative research in sustainable design and intelligent building systems to address modern architectural challenges. Dr. Matin has a diverse academic and professional background that bridges engineering, architecture, and design.

PROFESSIONAL PROFILE

Google Scholar

Orcid

Scopus

STRENGTHS FOR THE AWARDS

Negar Heidari Matin demonstrates a robust academic background and outstanding research achievements in architectural technology, focusing specifically on responsive autonomous intelligent facade systems, human comfort, and smart materials. With a Ph.D. in Technology and a strong publication record in top-tier journals, she has contributed significantly to the development and optimization of facade systems for visual comfort and energy efficiency. Her work spans innovative topics like smart colored windows, daylight optimization, and educational modules, positioning her as an expert in sustainable and smart architecture. She has collaborated with renowned institutions and has received wide recognition for her impactful research, including papers cited numerous times and appearing in reputable international journals.

AREAS FOR IMPROVEMENTS

While Negar Heidari Matin has made significant strides in architecture and design technology, she may expand her research scope by incorporating interdisciplinary collaborations with fields like AI and robotics to further enhance responsive architecture and facade systems. Additionally, developing more large-scale, real-world case studies or pilot projects could strengthen the practical application of her research and allow her to contribute to industry advancements more directly.

EDUCATION

🎓 Ph.D. Technology (2015–2020)
Eastern Michigan University, USA
Dissertation: Implementation of a Responsive Façade System for Optimizing Visual Comfort Metrics

🎓 Master of Architecture Engineering (2010–2012)
Tabriz Art University, Iran
Thesis: Designing a Monument/Memorial for Persian Culture

🎓 Bachelor of Architecture Engineering (2005–2010)
Chamran University of Ahvaz, Iran
Senior Design Project: Designing Tehran Airport Terminal

WORK EXPERIENCE

💼 Director (2022–Present)
High-Performance Interior Architecture Lab, University of Oklahoma

💼 Assistant Professor (2020–Present)
Interior Design Division, University of Oklahoma

💼 Research Fellow (2015–2020)
Sustainable Design Research Lab, Eastern Michigan University

AWARDS AND HONORS

🏆 Recognized for outstanding contributions in architectural research and innovation.
🏆 Published multiple high-impact papers in peer-reviewed journals.
🏆 Honored for advancements in responsive intelligent façade systems.
🏆 Recipient of academic grants for interdisciplinary research.

RESEARCH FOCUS

🔬 Architectural technology with a focus on responsive façade systems.
🔬 Integration of smart materials for enhanced building performance.
🔬 User comfort metrics and sustainable design principles.
🔬 Advanced computational techniques for interior design optimization.

PUBLICATION TOP NOTES

📄 Technologies Used in Responsive Facade Systems: A Comparative Study
📄 Factors Affecting the Design and Development of Responsive Facades
📄 Comparative Analysis of Technologies Used in Responsive Building Facades
📄 A Data-Driven Optimized Daylight Pattern for Responsive Facades Design
📄 A Comparative Study on Smart Windows Focusing on Climate-Based Energy Performance and Users’ Comfort Attributes
📄 The Effect of Smart Colored Windows on Visual Performance of Buildings
📄 Evaluating Visual Comfort Metrics of Responsive Facade Systems as Educational Activities
📄 A Novel Framework for Optimizing Indoor Illuminance and Discovering Association of Involved Variables
📄 Learning Modules for Geometric Pattern Identification and Mathematical Modeling of Facade Systems
📄 Interdisciplinary Educational Modules: Using Smart Colored Windows in Responsive Facade Systems
📄 Smart Colored Window Technology: Improving Users’ Comfort with an Interdisciplinary Approach
📄 Design Considerations for Virtual Reality Intervention for People with Intellectual and Developmental Disabilities: A Systematic Review
📄 Utilizing Simulation and Animation Software in Design Projects of Multi-Semester Courses
📄 Computer-Aided Design Application in Determining Minimum Discomfort Glare
📄 Using Smart Colored Windows for Improving Users’ Comfort in Buildings
📄 Historical Evolution of Responsive Facades Factors Affecting the Design and Development
📄 Symbolic Features of Four Classic Elements in Sustainable Traditional Iranian Architecture
📄 A Memorial for Islamic Iran: Honor of Eclectic Culture

CONCLUSION

Negar Heidari Matin stands as a strong contender for the Best Researcher Award due to her pioneering research in responsive facades, intelligent building systems, and user comfort. Her innovative contributions to architectural technology, alongside her extensive academic work and growing international recognition, underscore her qualification for this award. With further interdisciplinary collaborations and real-world applications, she has the potential to elevate the field of sustainable architecture even further.

 

 

Burcu Buram Colak Demirel | Building Energy | Best Researcher Award

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Mrs Burcu Buram Colak Demirel | Building Energy | Best Researcher Award

Research Assistant, Zonguldak Bulent Ecevit University, Turkey

Burcu Buram Çolak is an academic and architect with a passion for exploring the intersection of architecture and environmental design. She has worked in various roles in academia and practice, contributing significantly to research in architecture and sustainable building systems. With a background in architecture, she is currently serving as a research assistant at Zonguldak Bülent Ecevit University and Gazi University in Turkey. Her work primarily focuses on air quality in architectural spaces, energy conservation, and adaptive building design. She has contributed to numerous publications and continues to be actively engaged in research and the development of innovative solutions in architectural design.

Profile

Orcid

Strengths for the Award

  1. Diverse and Relevant Research Focus: Burcu Buram Çolak’s research is highly interdisciplinary, focusing on crucial issues in architecture such as air quality, building materials, energy conservation, and adaptable design systems. Her work addresses contemporary challenges in sustainable architecture and indoor environmental quality, which are of increasing importance in today’s world.
  2. Publications in Prestigious Journals: Burcu has published several impactful papers in recognized journals, including articles on energy conservation, adaptable building shells, and the intersection of architecture with branding and music. These publications demonstrate both academic depth and the practical application of her research.
  3. Academic and Professional Experience: With experience as a project architect and research assistant at prominent universities, Burcu successfully bridges theory and practice. Her professional background, combined with her active involvement in research, gives her a unique edge as an academic and practitioner.
  4. Innovation and Multidisciplinary Approach: Her work on comparing glass as a structural material with lightweight alternatives, as well as adaptive building shell designs, reflects her forward-thinking approach to architecture. She is engaging with cutting-edge issues in sustainability, energy-efficient design, and adaptive reuse in architecture.
  5. Ongoing Commitment to Research: Burcu is actively pursuing a PhD and has a clear focus on air quality in architectural spaces, indicating a long-term commitment to advancing knowledge in the field. Her research is evolving, which speaks to her dedication to contributing valuable insights for the architecture and design communities.

Areas for Improvement

  1. Broader Research Impact and Collaboration: While Burcu has produced high-quality publications, there is potential to increase the visibility of her work through more international collaborations and participation in high-impact conferences. This could further solidify her reputation in the global academic community.
  2. Increased Integration of Research and Teaching: As she is working both in academia and in research, Burcu could enhance the integration of her research into her teaching, sharing her findings with students more directly. This would not only benefit her students but also position her as a leader in architectural education.
  3. Expansion into More Applied Research: While Burcu has engaged with innovative research, exploring more applied case studies, particularly in collaboration with architectural firms or municipalities, could elevate the practical impact of her work. Engaging in real-world projects could strengthen the applicability and relevance of her research to broader architectural practice.

Education

Burcu Buram Çolak completed her Bachelor’s degree in Architecture at Erciyes University in 2013. She furthered her education by obtaining a Master’s degree from Gazi University, where she investigated glass as a structural material in her thesis. Burcu is currently pursuing a PhD at Gazi University, focusing on air quality in architectural spaces. Her academic journey has been deeply influenced by her research interests in building materials, energy efficiency, and environmental factors in architecture. She continues to expand her expertise through active research and academic collaboration.

Experience

Burcu Buram Çolak began her career as an architect at an architecture company from 2013 to 2017, where she worked on various projects. In 2017, she transitioned to academia, joining Gazi University as a research assistant in the Faculty of Architecture, where she contributed to teaching and research. Since 2023, she has been serving as a research assistant at Zonguldak Bülent Ecevit University in the Faculty of Architecture and Design. Her professional experience spans both practice and academia, allowing her to bridge the gap between theory and real-world application in architectural design and research.

Awards and Honors

Burcu Buram Çolak has been recognized for her contributions to architectural research and innovation. She has received accolades for her research on building materials, sustainable design, and energy conservation in residential buildings. Her work on adaptive building shells has been highly regarded in the academic community, and she has been awarded funding for her doctoral research on air quality in architectural spaces. In addition to these honors, Burcu has been acknowledged for her published works in international journals, further cementing her status as an influential figure in architectural research.

Research Focus

Burcu Buram Çolak’s research focuses on the relationship between air quality and architectural spaces, particularly the role of building materials and energy-efficient designs in improving environmental conditions. She has explored glass as a structural system material, comparing it with lightweight structural materials for sustainability. Her current PhD research aims to investigate how air quality impacts the well-being of occupants and how architectural interventions can improve indoor environments. Her work seeks to create innovative architectural solutions that prioritize both sustainability and the health of building occupants, addressing contemporary challenges in urban design and construction.

Publication Top Notes

  • Renovation Strategies for Energy Conservation in Multi-Story Residential Buildings in Turkey 🏢💡
  • Examples of Adaptive Module Variations for Adaptable Building Shell Design 🏛️🔄
  • Importance of Architecture in the Branding Process: An Evaluation on a Famous Brand 🏙️🔍
  • İmgesel Yapılarda Müzik ve Geometri Kesişimi; Iannis Xenakis Örnekleri Üzerinden İnceleme 🎶

Conclusion

Burcu Buram Çolak exhibits the qualities of an outstanding researcher: innovative ideas, a multidisciplinary approach, and a strong commitment to advancing knowledge in sustainable architecture and building design. Her research is highly relevant to contemporary issues in architecture, such as environmental quality and energy conservation. Although there are opportunities to expand her international collaborations and make her research more applied, her ongoing PhD and established academic career indicate that she is well on her way to becoming a leading figure in her field. Therefore, Burcu is highly deserving of the Best Researcher Award, as her work continues to make significant contributions to both academic and practical aspects of architecture.

Muhammad Kashif Anwar | Sustainable infrastructure And Green materials | Best Researcher Award

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Mr Muhammad Kashif Anwar | Sustainable infrastructure And Green materials | Best Researcher Award

Master Student/Research Assistant, Tongji University, China

Muhammad Kashif Anwar is a researcher and faculty member at Tongji University, Shanghai, China, specializing in civil engineering, particularly construction and pavement materials. He is known for his expertise in the utilization of waste materials in concrete and asphalt, aiming to promote sustainability in infrastructure. With a focus on advanced materials science, he is deeply involved in studying concrete and polymer composites’ performance under various conditions. Dr. Anwar has contributed significantly to the development of eco-friendly and circular economy-based solutions in the construction industry.

Profile

Google Scholar

Strengths for the Award

Muhammad Kashif Anwar is an exemplary candidate for the Best Researcher Award due to his extensive and impactful contributions to the field of civil engineering, specifically in the areas of sustainable construction materials and environmentally-friendly practices. His research on utilizing waste materials in concrete, asphalt, and polymer composites highlights a commitment to advancing circular economy concepts within the construction industry. With over 40 published papers in reputable international journals, his work on sustainable infrastructure and the development of eco-friendly materials stands out for its relevance to climate change mitigation and green construction. Dr. Anwar’s application of advanced decision-making tools, machine learning techniques, and digital simulations in optimizing construction materials is a testament to his innovative approach and technical expertise.

Furthermore, his consistent collaborations with international researchers and participation in high-impact publications demonstrates his leadership in the field. His work is frequently cited, reflecting the high influence and practical application of his research in real-world scenarios.

Key strengths include

  • Innovative application of waste materials in construction (e.g., fly ash, polymer composites, silica fume).
  • Expertise in circular economy and sustainability in civil engineering.
  • Development of advanced decision-making frameworks and machine learning models.
  • Cross-disciplinary collaboration with researchers from diverse fields such as environmental science and disaster management.

Areas for Improvement

While Dr. Anwar’s research is outstanding, there are areas where continued growth could further enhance his already impressive profile:

  1. Greater Focus on Commercialization and Industry Implementation: Though his work on sustainable materials is highly promising, exploring pathways to bring these innovations to the construction industry at a larger scale would help bridge the gap between research and industry adoption. His involvement in pilot projects or industry partnerships could push his research into practical, real-world applications.
  2. Interdisciplinary Research Integration: Expanding his work into even more interdisciplinary fields, such as energy-efficient building design or smart city infrastructure, could open new avenues for innovation and impact.
  3. Broader Geographic Reach: While his work has substantial influence in Asian regions, collaborating with researchers in other geographically diverse regions could diversify his research’s global impact and widen its applicability to different construction environments.

Education

Dr. Anwar holds a Ph.D. in Civil Engineering from Tongji University, Shanghai, China. His academic journey is centered on sustainable construction materials, with a special emphasis on the mechanical properties of concrete and asphalt mixtures, utilizing alternative and waste-based materials. His research is rooted in the goal of achieving sustainable development in the construction sector, focusing on enhancing material performance while reducing environmental impact.

Experience

Dr. Anwar has extensive experience as a researcher and faculty member at Tongji University. He has collaborated on numerous interdisciplinary projects involving the optimization of construction materials, including self-compacting concrete, polymer concrete composites, and asphalt mixtures. He has also been actively involved in developing sustainable infrastructure solutions, employing advanced techniques such as machine learning and digital analysis. His work includes both experimental and numerical simulation studies, contributing to the advancement of construction technology and disaster risk management frameworks.

Awards and Honors

Dr. Anwar has received recognition for his contributions to the field of civil engineering, particularly in sustainability and construction materials. His work on sustainable concrete, polymer composites, and circular economy applications has earned him several accolades and awards. He has also been featured in prominent academic journals and recognized by international organizations for his innovative research in eco-friendly materials and the development of green construction technologies.

Research Focus

Dr. Anwar’s research focuses on developing sustainable construction materials that promote environmental sustainability. Key areas include the optimization of concrete and asphalt mixtures using waste materials, the application of polymer composites for circular economy solutions, and improving material performance under varying environmental conditions. He is also focused on advancing the application of digital techniques and machine learning in predicting material properties and optimizing construction practices for sustainable infrastructure development.

Publication Top Notes

  • Analysis of mechanical properties of self-compacted concrete by partial replacement of cement with industrial wastes under elevated temperature (2018) 🏗️
  • Scientific risk performance analysis and development of disaster management framework: a case study of developing Asian countries (2021) 🌍
  • Utilization of polymer concrete composites for a circular economy: A comparative review for assessment of recycling and waste utilization (2021) ♻️
  • Recycling and utilization of polymers for road construction projects: An application of the circular economy concept (2021) 🚧
  • Optimization of fresh and mechanical properties of sustainable concrete composite containing ARGF and fly ash (2023) ⚙️
  • Marshall stability and flow analysis of asphalt concrete under progressive temperature conditions (2020) 🌡️
  • Numerical Simulations of GFRP-Reinforced Columns Having Polypropylene and Polyvinyl Alcohol Fibers (2020) 🏢
  • Predicting compressive strength of blast furnace slag and fly ash based sustainable concrete using machine learning techniques (2022) 🤖
  • Performance optimization approach of polymer modified asphalt mixtures with PET and PE wastes (2022) 🔄
  • Symmetric performance analysis for mechanical properties of sustainable asphalt materials under varying temperature conditions (2020) 🌡️
  • Utilization of self-consolidated green material for sustainable development (2021) 🌱
  • Structural performance of GFRP bars based high-strength RC columns (2022) 🏗️
  • Performance evaluation of modified bitumen using EPS beads for green and sustainable development (2020) 🛣️
  • Optimization and utilization of waste fly ash and silica fume based eco-friendly geopolymer mortar (2023) ⚒️
  • Utilization of radium-bead material for road safety (2021) 🚸
  • Evaluating the role of AI and empirical models for predicting regional economic growth and transportation dynamics (2024) 🧠
  • Analysis of Aggregate Shape And Texture By Advance Image Analysis Technique (2019) 🖼️
  • Mitigation of CO2 by Improving Efficiency of Cement Use Through production of Eco-friendly LC3 Cement (2020) 🌍

Conclusion

Muhammad Kashif Anwar is an exceptionally deserving candidate for the Best Researcher Award. His contributions to sustainable construction materials, circular economy principles, and climate-conscious infrastructure make him a pioneering researcher in the field of civil engineering. His consistent record of highly cited publications, interdisciplinary collaborations, and application of advanced technologies positions him as a leading expert who is shaping the future of sustainable infrastructure. With continued focus on practical implementation and global outreach, Dr. Anwar can amplify his influence even further. His work embodies the spirit of innovation, sustainability, and scientific advancement, making him a true asset to both academia and the broader construction industry.

Jayaluxmi Naidoo | Sustainable Development | Best Researcher Award

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Prof Jayaluxmi Naidoo | Sustainable Development | Best Researcher Award

Professor Mathematics Education, University of KwaZulu-Natal, South Africa

Jayaluxmi Naidoo is an academic affiliated with the University of KwaZulu-Natal in Durban, South Africa. With a strong background in mathematics education, she has dedicated her career to enhancing teaching methodologies and learning experiences in higher education. Naidoo’s work emphasizes the integration of technology in education, particularly in response to the challenges posed by the COVID-19 pandemic. Her research has garnered significant attention, reflecting her commitment to fostering educational equity and excellence.

Profile

GOOGLE SCHOLAR

ORCID

SCOPUS

Strengths for the Award

Jayaluxmi Naidoo demonstrates a strong commitment to advancing mathematics education through innovative research, particularly in the context of South Africa. With an h-index of 8 and 137 citations across 21 publications, her work has significantly impacted the field, showcasing her influence and recognition among peers. Naidoo’s focus on integrating technology in education, especially in response to the challenges posed by the COVID-19 pandemic, reflects her adaptability and forward-thinking approach. Her collaborations with other scholars indicate a capacity for teamwork and the ability to engage in multidisciplinary research, essential for addressing complex educational issues. Furthermore, her commitment to social justice in education enhances her candidacy, as it aligns with contemporary priorities in academia.

Areas for Improvement

While Naidoo has made notable contributions, there is potential for expanding her research to include more diverse populations and educational settings. Engaging in international collaborations could further enrich her work, providing broader perspectives and insights. Additionally, increasing her involvement in grant applications and funding opportunities could enhance the scale and impact of her research projects. Publishing in high-impact journals can also elevate her profile and reach a wider audience. Finally, fostering mentorship roles for emerging researchers could solidify her legacy and contribute to the growth of the academic community.

Education

Naidoo holds advanced degrees in education, focusing on mathematics pedagogy and technology integration in learning. Her academic journey has equipped her with the expertise to address contemporary educational challenges, particularly within the South African context. Through her studies, she has developed a nuanced understanding of the intersection between technology and education, enabling her to contribute effectively to discussions around digital learning environments and pedagogical innovations.

Experience

With years of experience in higher education, Naidoo has served in various roles that bridge teaching and research. She has been actively involved in curriculum development and has conducted workshops aimed at improving teaching practices among her peers. Her collaborations with co-authors and educational institutions reflect her dedication to collective growth in the academic community. Additionally, her involvement in research projects showcases her commitment to advancing knowledge in the field of mathematics education.

Awards and Honors

Naidoo has received recognition for her contributions to education, particularly in the realm of mathematics pedagogy and digital learning. Her publications have been widely cited, underscoring her influence in the academic community. She has also been involved in various initiatives aimed at promoting educational equity and innovation, earning accolades for her commitment to sustainable education practices.

Research Focus

Naidoo’s research primarily focuses on the integration of technology in mathematics education, exploring sustainable teaching methods in the context of the Fourth Industrial Revolution. She investigates the impact of digital tools on student learning and engagement, particularly during the COVID-19 pandemic. Her work addresses broader themes of social justice and educational equity, aiming to create inclusive learning environments that benefit all students.

Publication Top Notes

  • Social justice implications of digital science, technology, engineering and mathematics pedagogy: Exploring a South African blended higher education context 🌍
  • Embedding Sustainable Mathematics Higher Education in the Fourth Industrial Revolution Era Post-COVID-19: Exploring Technology-Based Teaching Methods 💻
  • Technology-Based Pedagogy for Mathematics Education in South Africa: Sustainable Development of Mathematics Education Post COVID-19 📚
  • Exploring the perceptions of Grade 5 learners about the use of videos and PowerPoint presentations when learning fractions in mathematics 🎥
  • A closer look at the academic support seeking behaviour of male undergraduate students 👨‍🎓
  • Context matters: Science, technology and mathematics education lecturers’ reflections on online teaching and learning during the covid-19 pandemic 🌐
  • Postgraduate mathematics education students’ experiences of using digital platforms for learning within the COVID-19 pandemic era 🖥️
  • Teachers’ perceptions of using the blended learning approach for STEM-related subjects within the fourth industrial revolution 🏫
  • Exploring Mathematics Teachers’ Professional Development: Embracing the Fourth Industrial Revolution 🛠️
  • Exploring the Flipped Learning Approach within a Mathematics Higher Education Milieu in the Era of the Fourth Industrial Revolution 🔄

Conclusion

In conclusion, Jayaluxmi Naidoo stands out as a strong candidate for the Best Researcher Award due to her impactful research, commitment to innovation in mathematics education, and focus on social justice. By addressing identified areas for improvement, she has the potential to further enhance her contributions to the field and inspire future generations of educators and researchers. Her work not only advances academic knowledge but also promotes equitable education practices, making her an invaluable asset to the research community.

Syed Nasir Abbas – Sustainable Development – Best Researcher Award

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Syed Nasir Abbas - Sustainable Development - Best Researcher Award

University of Sargodha - Pakistan

AUTHOR PROFILE

SCOPUS

🎓 EDUCATIONAL BACKGROUND AND RESEARCH EXPERIENCE

Syed Nasir Abbas is an accomplished civil engineer with a deep focus on material science, particularly in the areas of concrete and composite materials. He has completed his BSc and MSc research, investigating crucial topics such as the "Relationship between Plasticity Index and Expansion Index" and the "Flexural Capacity of Brick – FRP Composite." His academic work laid the foundation for further explorations into the mechanical behavior of construction materials.

🔬 RESEARCH SUPERVISION AND TEACHING

With years of experience in the field, Syed Abbas has guided multiple research projects for both Civil Engineering and Civil Engineering Technology students. His supervision has led to the successful completion of various final-year projects, emphasizing the impact of alternative materials on concrete properties, such as the use of Waste Foundry Sand (WFS) to enhance compressive strength and workability.

🏗️ INNOVATIVE RESEARCH IN CONCRETE AND COMPOSITE MATERIALS

Syed Abbas has made significant contributions to understanding the mechanical properties of concrete by integrating recycled materials. His groundbreaking work includes investigating the use of high-density polyethylene (HDPE), electronic waste (e-waste), and fly ash-based geo polymer concrete. These studies aim to improve the sustainability and performance of modern construction materials, which are vital for the future of civil engineering.

📚 PUBLISHED WORKS AND SCIENTIFIC CONTRIBUTIONS

Syed Abbas has published several papers in reputed journals, such as MDPI Sustainability and Science International Lahore. His research covers a wide range of topics, from flexural behavior of brick-FRP composites to the mechanical properties of concrete with alternative aggregates like HDPE and fly ash. His work highlights the potential for more sustainable and efficient construction materials.

🌍 SUSTAINABLE BUILDING MATERIALS

A core aspect of Syed Abbas’s research is sustainability in construction. His investigations into the use of recycled and alternative materials, including the combined effect of silica fume and various fibers, showcase his dedication to reducing the environmental impact of concrete production. This focus aligns with global efforts to promote eco-friendly and sustainable building practices.

🧱 EXPERIMENTAL STUDIES ON CONCRETE PERFORMANCE

Syed Abbas has conducted numerous experimental studies aimed at improving concrete’s compressive strength and overall performance. By exploring the effects of different compaction methods, admixtures, and the partial replacement of cement with silica fume, he continues to push the boundaries of material science in civil engineering.

🏆 AWARDS AND RECOGNITION IN THE FIELD

Through his dedication and innovative approach, Syed Abbas has earned recognition in the civil engineering community. His research not only contributes to the academic understanding of material properties but also offers practical solutions for improving construction techniques and building sustainability in the modern world.

NOTABLE PUBLICATION

Title: Combined effect of silica fume and various fibers on fresh and hardened properties of concrete incorporating HDPE aggregates
Authors: S.N. Abbas, M.I. Qureshi, M.K. Alkharisi, M. Alturki, Z. Ahmad
Journal: Construction and Building Materials
Year: 2024

Title: An Investigation of Mechanical Properties of Fly Ash Based Geopolymer and Glass Fibers Concrete
Authors: S.N. Abbas, M.I. Qureshi, M.M. Abid, A. Zia, M.A.U.R. Tariq
Journal: Sustainability (Switzerland)
Year: 2022

Title: An Investigation of Mechanical Properties of Concrete by Applying Sand Coating on Recycled High-Density Polyethylene (HDPE) and Electronic-Wastes (E-Wastes) Used as a Partial Replacement of Natural Coarse Aggregates
Authors: S.N. Abbas, M.I. Qureshi, M. Abid, M.A.U.R. Tariq, A.W.M. Ng
Journal: Sustainability (Switzerland)
Year: 2022

Ashraf Darwish – Sustainable Development – Outstanding Scientist Award

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Ashraf Darwish - Sustainable Development - Outstanding Scientist Award

Faculty of science - Egypt

AUTHOR PROFILE

SCOPUS

🎓 ACADEMIC BACKGROUND

Ashraf Darwish is a distinguished academic with a PhD in Computer Science from St. Petersburg State University, Russia. His academic journey also includes a Master’s Degree in Computer Science and Mathematics from Tanta University, Egypt, where he laid the foundation for his extensive expertise in computational science. His educational background is further enriched by pre-PhD and pre-Masters courses in Computer Science and Mathematics, showcasing his commitment to continuous learning and development.

💻 PROFESSIONAL EXPERIENCE

Professor Ashraf Darwish is currently a Professor of Computer Science at Helwan University, Cairo, Egypt, where he has also served as an Associate Professor and Acting Head of the Mathematics Department. His career includes a pivotal role as the Cultural and Educational Attaché at the Embassy of Egypt in Kazakhstan, highlighting his leadership in both academic and diplomatic spheres. With years of experience in academia, he has contributed significantly to the development of computer science education and research at various prestigious institutions.

📚 TEACHING EXPERTISE

Ashraf Darwish has an extensive teaching portfolio, covering a wide range of subjects in computer science and mathematics. His teaching repertoire includes courses such as Artificial Intelligence, Machine Learning, Data Science, Cloud and Fog Computing, and Internet of Things, among others. His passion for teaching and ability to convey complex concepts have made him a respected figure among students and colleagues alike.

🔬 RESEARCH FOCUS

Professor Darwish's research is centered around Artificial Intelligence, Data Science, and Emerging Technologies. His work spans various cutting-edge areas, including Machine Learning, Bioinformatics, Computational Intelligence, and Blockchain Technology. He is particularly interested in the applications of AI in diverse fields, such as Chemoinformatics, Information Security, and Computer Vision, making substantial contributions to the advancement of technology and its real-world applications.

🌍 GLOBAL RECOGNITION

Ashraf Darwish has earned global recognition for his research, being ranked among the top 2% of the world’s most-cited scientists according to Stanford University's Ioannidis's index, published in both 2022 and 2023. His contributions to the fields of Artificial Intelligence, Image Processing, and Information and Communication Technologies have positioned him as a leading expert, further solidifying his impact on the global research community.

🏆 AWARDS AND HONORS

Throughout his career, Professor Darwish has received numerous accolades, including the prestigious award for being the best researcher at Helwan University in 2014. His continuous pursuit of excellence and dedication to his field have been recognized both nationally and internationally, underscoring his influence as a researcher and educator.

🌐 LANGUAGE AND CERTIFICATIONS

Fluent in multiple languages, including Arabic, English, Russian, and German, Ashraf Darwish's linguistic abilities complement his global academic and research endeavors. His certifications in these languages demonstrate his commitment to cross-cultural communication and collaboration, enhancing his effectiveness in international academic and professional environments.

NOTABLE PUBLICATION

Graphene and Graphene Based Nanocomposites for Bio-Medical and Bio-safety Applications
Authors: Verma, R., Kumar Gupta, S., Lamba, N.P., Bahadur, V., Chauhan, M.S.
Year: 2023
Journal: ChemistrySelect

Automotive applications of biodegradable polymers
Authors: Jineesh, A.G., Parameswaranpillai, J., Chavali, M., Hegde, C., Bhansali, P.R.
Year: 2023

Structurally modified compounds of hydroxychloroquine, remdesivir and tetrahydrocannabinol against main protease of SARS-CoV-2, a possible hope for COVID-19: Docking and molecular dynamics simulation studies
Authors: Mishra, D., Maurya, R.R., Kumar, K., Singh, P., Bahadur, I.
Year: 2021
Journal: Journal of Molecular Liquids

Aldehydes: Magnificent acyl equivalents for direct acylation
Authors: Kumar, P., Dutta, S., Kumar, S., Parmar, V.S., Singh, B.K.
Year: 2020
Journal: Organic and Biomolecular Chemistry

Cu-catalyzed one-pot multicomponent approach for the synthesis of symmetric and asymmetric 1,4-dihydropyridine (1,4-DHP) linked 1,2,3-triazole derivatives
Authors: Kaushik, P., Kumar, A., Kumar, P., Singh, B.K., Bahadur, V.
Year: 2020
Journal: Synthetic Communications

N-Directed Pd-Catalyzed Direct ortho-Acetoxylation and ortho-tert-Butoxylation of 2-Phenyl-4H-benzo[d][1,3]oxazin-4-ones via C-H Activation
Authors: Gupta, M., Kumar, S., Kumar, P., Bahadur, V., Singh, B.K.
Year: 2019
Journal: ChemistrySelect

Title: Microwave-Assisted Ruthenium-Catalysed ortho-C−H Functionalization of N-Benzoyl α-Amino Ester Derivatives
Authors: Sharma, N., Bahadur, V., Sharma, U.K., Singh, B.K., Van der Eycken, E.V.
Year: 2018
Journal: Advanced Synthesis and Catalysis

Rania Ihsan Ali – Sustainable Pavement Engineering – Best Researcher Award

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Rania Ihsan Ali - Sustainable Pavement Engineering - Best Researcher Award

University of Al-Qadisiyah - Iraq

AUTHOR PROFILE

SCOPUS

SELF-MOTIVATED CIVIL ENGINEER

Rania Ihsan Ali is a highly self-motivated and innovative Civil Engineer, known for her focus and passion in engineering design. Her extensive experience spans from initial conceptual stages and feasibility studies to detailed final designs. She thrives on learning and developing both new and existing skills, employing established analytical methods and engineering principles to solve complex problems.

EDUCATION IN ROAD AND BRIDGE ENGINEERING

Rania holds a B.Sc. in Road and Bridge Engineering from the College of Engineering, Qadisiyah University (2016-2020). Her academic background provided a strong foundation in civil engineering, specializing in road and bridge design.

FACULTY MEMBER AT UNIVERSITY OF QADISIYAH

Since 2021, Rania has been a dedicated faculty member at the University of Qadisiyah, College of Engineering. She teaches AutoCad in the Department of Civil Engineering, sharing her expertise and fostering the next generation of engineers.

RESEARCH IN ASPHALT BINDER MODIFICATION

Rania has conducted qualitative evaluations of asphalt binder modified with SBS polymer. Her research contributes to enhancing the durability and performance of asphalt pavements, showcasing her commitment to improving construction materials.

SCIENTOMETRIC AND BIBLIOMETRIC STUDIES

She has performed scientometric and bibliometric reviews of the literature on the design and construction of semi-flexible pavement. This work highlights her analytical skills and dedication to advancing the field of civil engineering through comprehensive literature analysis.

SUSTAINABLE PAVEMENT DEVELOPMENT

Rania's research on the efficient use of ceramic waste powder in cementitious grout for sustainable semi-flexible pavement surfaces demonstrates her innovative approach to sustainable construction practices. Her work aims to develop eco-friendly and durable pavement solutions.

PROGRESSIVE CAREER ASPIRATIONS

Rania is keen to secure a challenging role in an engineering firm that offers early responsibilities and a progressive career path. Her drive for professional growth and commitment to excellence make her a valuable asset to any engineering team.

NOTABLE PUBLICATION

Effect of glass waste powder and date palm seed ash based sustainable cementitious grouts on the performance of semi-flexible pavement.
Authors: R. Al-Nawasir, B. Al-Humeidawi, M.I. Khan, S.H. Khahro, Z.A. Memon
Year: 2024
Journal: Case Studies in Construction Materials, 21, e03453

Influence of Sustainable Grout Material on the Moisture Damage of Semi-flexible Pavement.
Authors: R. Al-Nawasir, B. Al-Humeidawi, A. Shubbar
Year: 2024
Journal: Periodica Polytechnica Civil Engineering, 68(3), pp. 961–973

Qualitative Evaluation for Asphalt Binder Modified with SBS Polymer.
Authors: R.I. Al-Nawasir, B.H. Al-Humeidawi
Year: 2023
Journal: Tikrit Journal of Engineering Sciences, 30(4), pp. 88–101

A scientometric study and a bibliometric review of the literature on the design and construction of semi-flexible pavement.
Authors: R.I. Al-Nawasir, B.H. Al-Humeidawi
Year: 2023
Journal: Al-Qadisiyah Journal for Engineering Sciences, 16(2), pp. 82–91

Efficient use of ceramic waste powder in Cementitious Grout for the Development of Sustainable Semi-Flexible Pavement Surfaces.
Authors: R.I. Al-Nawasir, B.H. Al-Humeidawi
Year: 2023
Journal: IOP Conference Series: Earth and Environmental Science, 1232(1), 012039

Bin Zheng – Environmentally friendly building materials – Best Researcher Award

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Bin Zheng - Environmentally friendly building materials - Best Researcher Award

Fujian Hongsheng Construction Group - China

AUTHOR PROFILE

SCOPUS

EDUCATION IN ARCHITECTURE AND CIVIL ENGINEERING

Bin Zheng graduated with a Master’s degree in Architecture and Civil Engineering from Chongqing University in June 2008. His academic background laid a strong foundation for his extensive career in construction and engineering.

CURRENT POSITION AND RESPONSIBILITIES

Currently serving as Deputy General Manager and Chief Engineer at Fujian Hongsheng Construction Group Co., Ltd., Bin Zheng oversees the company's technology and engineering centers. His role encompasses managing production technology, quality control, and facilitating technical exchanges and cooperation both internally and externally.

CONTRIBUTIONS TO NATIONAL STANDARDS

Bin Zheng played a pivotal role as the main drafter of the national standard "Determination of Organic Content of Adiabatic Materials for Construction" (GB/T41768-2022/ISO29771:2008). This standard is crucial for ensuring the quality and sustainability of construction materials.

DEVELOPMENT OF LOCAL STANDARDS

He is also the main drafter of several local standards, including "Technical Standard for Application of Planting Concrete" (DBJ/T13-393-2021) and "Code for Design and Testing of Fujian Province" (DBJ/T13-101-2017), contributing significantly to regional construction practices and regulations.

INNOVATIVE PATENT CONTRIBUTIONS

Bin Zheng holds an invention patent for "A High Strength Concrete for Construction" (Patent No.: ZL2020 2 1757546.9), demonstrating his commitment to advancing construction technology through innovative solutions.

LEADERSHIP IN KEY PROJECTS

He is responsible for the excellence work of key projects within the company, ensuring that these projects meet high standards of quality and performance, reflecting his leadership and expertise in the field.

TECHNICAL GUIDANCE AND COOPERATION

Bin Zheng’s role involves providing technical guidance and fostering cooperation in the construction industry, enhancing the overall technical capabilities and collaborative efforts within the sector.

NOTABLE PUBLICATION

Investigation of the static constitutive relationship of rubberized self-compacting concrete after high-temperature exposure.
Authors: J. Zhuang, H. Ye, J. Zhao, X. Cai, B. Zheng
Year: 2024
Journal: Construction and Building Materials, 440, 137332

Thatikonda Naresh – sustainable materials – Best Researcher Award

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Thatikonda Naresh - sustainable materials - Best Researcher Award

National institute of technology Arunachal Pradesh - India

AUTHOR PROFILE

SCOPUS

PROFESSIONAL SKILLS AND EXPERTISE

Thatikonda Naresh is well-versed in structural engineering with a solid foundation in maintaining materials testing and civil lab equipment. His expertise includes knowledge in strength of materials, concrete and highway materials testing, and proficiency in CAD and STARD PRO LAB. Naresh has hands-on experience with various civil engineering tools such as Universal Testing Machines (UTM), Total Stations, Rebound Hammers, UV Spectrometers, and California Bearing Ratio (C.B.R) testers.

RESEARCH PUBLICATIONS

Naresh has contributed significantly to the field of geopolymer concrete through various publications. Notable works include "Evaluation of Self-Compacting Geopolymer Concrete Properties Containing Different Water Glass Solutions" and "Activation of Self-Compacted Geopolymer Concrete Using Neutral-Grade Single Activator Solution," both published in high-impact journals. His research also covers the physical and mechanical properties of geopolymer mortar and the influence of activator solutions on self-compacting geopolymer concrete.

HONORS AND AWARDS

Naresh has been recognized for his contributions to academia and research. In 2019, he received a 'Certificate of Appreciation' from CJITS & LABTECH INNOVATIONS for his role as Conference Coordinator at the 3rd International Conference on Research and Modern Innovations in Engineering and Technology (ICRMIET-19). Additionally, he earned a 'Certificate of Appreciation' and a 'Certificate of Excellence' for his roles as Faculty Coordinator in organizing workshops and national series at Christu Jyoti Institute of Technology & Science.

RESEARCH FOCUS ON GEOPOLYMER CONCRETE

Naresh’s research primarily revolves around geopolymer concrete, with a focus on enhancing its properties using various activators and alternative cementitious materials. His studies, including those on micro-silica as a replacement for fly ash-GGBFS and the influence of binder composition, aim to advance the understanding and application of self-compacting geopolymer concrete in construction.

CONFERENCE PARTICIPATION AND COORDINATION

Beyond research, Naresh has demonstrated strong organizational skills by coordinating conferences and workshops. His involvement in events such as the 3rd ICRMIET and various advanced surveying and national workshop series underscores his commitment to promoting knowledge and innovation in the field of engineering.

LABORATORY EXPERIENCE

Naresh's practical experience includes preparing and maintaining lab manuals and stock registers, which reflects his attention to detail and organizational capabilities. His hands-on work with lab equipment and materials testing reinforces his technical skills and dedication to maintaining high standards in civil engineering research and practice.

ACADEMIC CONTRIBUTIONS

His academic achievements and contributions to research and education highlight Naresh's role in advancing structural engineering and materials science. His ongoing work in the field continues to contribute valuable insights and innovations, shaping the future of civil engineering practices and technologies.