Md Jaynul Abden | Building Energy Efficiency | Best Researcher Award

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Dr. Md Jaynul Abden | Building Energy Efficiency | Best Researcher Award

Postdoctoral Research Fellow, Western Sydney University, Australia

MD Jaynul Abden is a Postdoctoral Research Fellow in Materials Engineering at Western Sydney University, with extensive expertise in advanced materials synthesis and processing. Specializing in energy storage, thermal management, aerospace, and mechanical engineering, his research has driven innovation in these fields since 2014. In addition to his research, he is committed to educating future engineers and has mentored students while delivering high-quality instruction. His career has involved collaborative projects that integrate sustainability and multifunctional material design, particularly focusing on energy-efficient building materials. Abden’s dedication to advancing material innovation is evident in his ongoing efforts to reduce environmental impacts through sustainable practices.

Profile

Education

MD Jaynul Abden holds a Doctor of Philosophy (PhD) in Material Engineering from Western Sydney University, Australia, where he developed novel form-stable composite phase change materials. His work has contributed significantly to advancements in thermal regulation for building applications. He also earned a Master of Philosophy (MPhil) in Material Science from Chittagong University of Engineering and Technology (CUET), Bangladesh, focusing on Al2O3-ZrO2 composites. In 2004, he completed his Master of Science (MS) in Physics with a high GPA of 3.60/4.00 and was awarded First Class Honors in his Bachelor of Science (BSc) degree in Physics from Chittagong University, Bangladesh. Abden’s academic background, combined with his research and teaching experience, enables him to blend deep technical knowledge with a practical approach to materials innovation.

Experience

MD Jaynul Abden has extensive experience as a researcher, educator, and academic mentor. He is currently serving as a Postdoctoral Research Fellow at Western Sydney University, where he leads cutting-edge research on sustainable and energy-efficient materials. His role involves investigating material properties, developing experimental models, and collaborating with industry partners. Prior to this, Abden worked as a Research Assistant, contributing to the development of energy-efficient concrete and solar roof tiles. As a Casual Teacher, he has also enhanced student engagement and academic performance through dynamic teaching methods. Earlier in his career, Abden served as an Assistant Professor and Lecturer at International Islamic University Chittagong, where he improved program participation and co-authored impactful research papers. His diverse roles reflect his versatility and dedication to advancing both research and education in materials engineering.

Awards and Honors

MD Jaynul Abden’s career is marked by numerous prestigious awards and recognitions. Notably, he received the Research Training Program Scholarship and the Australian Postgraduate Award in 2017, which supported his doctoral research. In 2023, he was awarded the CO2 Absorption for Magnesium Oxide Boards grant and the School Strategic Research Project award at Western Sydney University. Abden’s contributions to the scientific community have earned him Elsevier Reviewer Recognition in 2018. His merit-based scholarships, including those during his undergraduate and postgraduate studies, reflect his academic excellence. Additionally, Abden was awarded the Bangladesh Sena Kalyan Shongstha Merit Scholarship in 1999, further highlighting his early academic achievements. These honors demonstrate his dedication to research excellence, teaching, and innovation in materials engineering.

Research Focus

MD Jaynul Abden’s research focuses on enhancing material performance through the synthesis and processing of advanced materials for applications in energy storage, thermal management, aerospace, and mechanical engineering. He is particularly interested in the development of sustainable and energy-efficient materials, such as form-stable composite phase change materials (FSPCM) for thermal regulation in buildings. Abden’s work integrates energy simulations, lifecycle analysis, and multi-model comparisons to optimize material performance in real-world environments. His research has led to the development of innovative solutions, such as energy-efficient recycled concrete and solar roof tiles. By focusing on multifunctional materials, Abden aims to address complex technological challenges, improve energy efficiency, and reduce environmental impacts. His contributions to both academia and industry make him a key figure in advancing sustainable material solutions in construction and engineering sectors.

Publication Top Notes

  1. Physical Properties of Predicted Ti2CdN vs. Existing Ti2CdC MAX Phase: An Ab Initio Study 🔬🧑‍🔬

  2. Inclusion of Methyl Stearate/Diatomite Composite in Gypsum Board Ceiling for Building Energy Conservation 🏠🌍

  3. Multifunctional Hierarchical Graphene-Carbon Fiber Hybrid Aerogels for Strain Sensing and Energy Storage 💡⚡

  4. Improving Performance of Solar Roof Tiles by Incorporating Phase Change Material ☀️🏠

  5. Hierarchical Honeycomb Graphene Aerogels Reinforced by Carbon Nanotubes with Multifunctional Mechanical and Electrical Properties 🧪🔋

  6. Combined Use of Phase Change Material and Thermal Insulation to Improve Energy Efficiency of Residential Buildings 🏠🌞

  7. Microstructure and Mechanical Properties of 3YSZ Ceramics Reinforced with Al2O3 Particles 🏗️🧱

  8. Structural and Electrical Properties of Cu Substituted Ni–Cd Nanoferrites for Microwave Applications 📡💡

  9. Core-Shell Structured Graphene Aerogels with Multifunctional Mechanical, Thermal, and Electromechanical Properties 🧬🔧

  10. Pressureless Sintering and Mechanical Properties of Hydroxyapatite/Functionalized Multi-Walled Carbon Nanotube Composite 🦴💪

Mohammad Kamalabadi Farahani | Sustainability in Construction | Best Researcher Award

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Mr. Mohammad Kamalabadi Farahani | Sustainability in Construction | Best Researcher Award

Master’s degree graduate, Iran university of science and technology, Iran

Mohammad Kamalabadi Farahani is a forward-thinking construction engineer with expertise in sustainable building practices. With a Master’s degree in Construction Engineering and Management from Iran University of Science and Technology (IUST), Mohammad specializes in eco-efficient building materials, waste management, and energy-efficient buildings. His research interests are rooted in sustainability, particularly in developing innovative construction materials like composite bricks. Mohammad is currently working as a Project Manager and Construction Engineer at Pars Construction Group. His dedication to both practical and theoretical aspects of construction engineering makes him a promising figure in the field. 🌍🏗️

Profile:

Google Scholar

Education:

Mohammad holds an MSc in Construction Engineering and Management from Iran University of Science and Technology (2021-2023) with an impressive GPA of 3.77/4. He completed his BSc in Civil Engineering at Islamic Azad University (2015-2019), with a strong academic record. At IUST, his research focused on sustainable construction materials, which provided a solid foundation for his future work in the eco-efficient construction industry. His academic journey reflects a deep commitment to excellence, combining theoretical knowledge with practical skills. 📚🎓

Experience:

Mohammad Kamalabadi Farahani is currently serving as a Project Manager and Construction Engineer at Pars Construction Group since 2019. His role involves managing projects, coordinating construction activities, and ensuring sustainable practices are followed throughout the construction process. With hands-on experience in project management and construction engineering, Mohammad applies his research-driven insights into real-world projects. His ability to bridge the gap between research and industry makes him a valuable asset in the field of sustainable construction. 🛠️🏢

Awards and Honors:

Mohammad has been recognized for his outstanding academic performance, particularly for his master’s thesis, which he completed with an excellent grade of 19.5/20 at Iran University of Science and Technology. This achievement highlights his dedication to research and excellence. His hard work and contributions to sustainable construction practices are also evident in his published research, which has gained attention within the academic community. His recognition is a testament to his potential in advancing sustainable construction. 🏅👏

Research Focus:

Mohammad’s research focus centers on sustainable construction, eco-efficient building materials, and energy-efficient building design. He specializes in the development of composite bricks made from natural zeolite and recycled materials like sugarcane bagasse ash and mushroom compost. His research aims to reduce the environmental impact of construction materials while improving energy performance in buildings. Mohammad’s work supports the global shift towards more sustainable and environmentally responsible construction practices. 🌱🏠

Publication Top notes:

  1. Natural zeolite composite bricks containing sugarcane bagasse ash: An innovative sustainable construction material – Journal of Material Cycles and Waste Management (Dec 2024)
  2. Building Energy Simulation of Eco-efficient Composite Bricks Using a Novel Method to Convert Ceramic Bricks into Building Blocks: Case Study in Iran – Infrastructures (Feb 2025)

 

 

Silvia Vilčeková | Sustainable construction | Best Researcher Award

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Prof Silvia Vilčeková | Sustainable construction | Best Researcher Award

Prof Silvia Vilčeková, Technical University of Košice, Faculty of Civil Engineering, Slovakia

Silvia Vilčeková is a distinguished professor at the Technical University of Košice (TUKE), Slovakia, with a career dedicated to sustainable construction and environmental engineering. Currently serving as the Director of the Institute of Sustainable and Circular Construction at TUKE, she has significantly contributed to the fields of indoor environmental quality, sustainability assessment, and life cycle assessment of building materials. With over two decades of experience, Silvia has held key positions including Head of the Department of Environmental Engineering and has been involved in various high-impact research projects. Beyond academia, she is also an accomplished sustainability consultant, founding SILCERT, s.r.o., where she leads projects related to LEED, BREEAM, and Environmental Product Declarations (EPDs). Her expertise is recognized through multiple awards, making her a leading figure in sustainable building practices.

Publication Profile

Orcid

Strengths

  1. Academic and Professional Leadership: Silvia Vilčeková has held prominent positions at the Technical University of Košice (TUKE), including her current role as the Director of the Institute of Sustainable and Circular Construction. Her leadership in the field of Environmental Engineering, as well as her involvement in sustainability projects, reflects her strong academic and research capabilities.
  2. Research Contributions: With a robust portfolio of published works, including journal articles, book chapters, and conference papers, Vilčeková has made significant contributions to the fields of indoor environmental quality, sustainable construction, and life cycle assessment of building materials. Her research addresses crucial aspects of sustainability in the built environment.
  3. Industry Expertise: Beyond academia, Vilčeková has established her expertise as a senior sustainability consultant through her involvement with companies like SALVIS and SILCERT. Her work on projects certified by LEED and BREEAM demonstrates her practical impact on sustainable construction practices.
  4. Recognition and Awards: Vilčeková’s recognition through various awards, such as the Prize for Scientific and Professional Literature, highlights her contributions to the scientific community.

Areas for Improvement

  1. International Collaboration: While Vilčeková has an impressive portfolio, expanding her international collaboration networks could further enhance her global research impact.
  2. Public Engagement: Increasing her public engagement and outreach efforts, particularly through conferences, workshops, and public lectures, could help in disseminating her research findings to a broader audience.

Education

Silvia Vilčeková’s academic journey is rooted in the Technical University of Košice (TUKE), Slovakia. She earned her PhD in Environmental Engineering in 2003, with her doctoral thesis focused on the impact of nitrogen oxides in indoor environments. Furthering her specialization, she achieved the title of Associate Professor in Building Construction in 2009, with her habilitation thesis examining the intricate relationship between buildings and the environment. Her dedication to advancing sustainable construction was solidified in 2021 when she was appointed as a full Professor at TUKE. Complementing her academic credentials, Silvia holds several prestigious certifications, including the WELL Accredited Professional (WELL AP) from the International WELL Building Institute, LEED Green Associate from the US Green Building Council, and Individual Verifier certifications from international organizations like the International EPD® System in Sweden and EPD-Norge in Norway, highlighting her commitment to global sustainability standards.

Experience

Silvia Vilčeková’s professional experience spans over two decades, marked by key leadership roles at the Technical University of Košice (TUKE), Slovakia. She currently serves as the Director of the Institute of Sustainable and Circular Construction, where she oversees research and educational activities focused on sustainable building practices. Previously, she was the Head of the Department of Environmental Engineering at TUKE, guiding research initiatives and curricula in environmental engineering. Silvia has also contributed significantly to the Institute of Environmental Engineering and the Institute of Building and Environment at TUKE. Beyond academia, she is the founder and Senior Sustainability Consultant at SILCERT, s.r.o., where she leads projects on sustainability certifications such as LEED and BREEAM, and the development of Environmental Product Declarations (EPDs). Her consulting firm, SALVIS, s.r.o., further reflects her expertise in sustainable construction, making her a recognized leader in the field.

Awards and Honors 

Silvia Vilčeková has been recognized with numerous awards and honors throughout her career, underscoring her contributions to environmental engineering and sustainable construction. Among her most notable accolades is the Prize for Scientific and Professional Literature in the category of Natural and Technical Sciences, which she received in 2017 for her scientific monograph on the occurrence of organic compounds in the indoor environment. This prestigious award highlights her pioneering research in indoor environmental quality. In addition, Silvia has been an influential member of key technical committees, including serving as Chairman of the Technical Committee TK112 for Sustainable Construction and a member of the Technical Committee TK109 for Facility Management. Her leadership in these committees reflects her commitment to advancing sustainability practices at both national and international levels. Silvia’s dedication to her field is further demonstrated by her role as a verifier for various Environmental Product Declaration (EPD) systems across Europe.

Research Focus

Silvia Vilčeková’s research focuses on advancing sustainable and circular construction practices, with a particular emphasis on indoor environmental quality and life cycle assessment of building materials. At the Technical University of Košice (TUKE), Slovakia, where she serves as the Director of the Institute of Sustainable and Circular Construction, Silvia leads cutting-edge research projects that explore the environmental impact of building materials throughout their life cycle. Her work involves detailed assessments of indoor environmental quality, including the monitoring of pollutants such as nitrogen oxides, volatile organic compounds, and particulate matter. Silvia’s research also extends to the development and implementation of sustainability assessment methods and certification systems, such as LEED and BREEAM, for buildings. She has contributed to numerous publications and book chapters, sharing her findings on the importance of sustainable construction practices in reducing the carbon footprint and enhancing the overall sustainability of the built environment.

Publication Top Notes

  1. 📘 “Building Materials Circularity of Green Roofs” (2024) – Book chapter, DOI: 10.1007/978-3-031-44955-0_47
  2. 🏙️ “The impact of green roofs’ composition on its overall life cycle” (2024) – Journal article, DOI: 10.1016/j.jenvman.2024.122363
  3. 🏢 “Prioritization of Sustainability Dimensions and Indicators for Office Buildings” (2023) – Book chapter, DOI: 10.1007/978-3-031-38766-1_5
  4. 🔄 “End-of-Life Stage Analysis of Building Materials in Relation to Circular Construction” (2023) – Conference paper, DOI: 10.3390/engproc2023057043
  5. 🌍 “Potential for Reducing the Carbon Footprint of Buildings” (2023) – Conference paper, DOI: 10.3390/engproc2023057006
  6. 💡 “Analysis of Equivalent CO2 Emissions of the Irrigation System—A Case Study” (2023) – Journal article, DOI: 10.3390/su152316240
  7. 🔌 “Life cycle assessment of LED luminaire and impact on lighting installation – A case study” (2023) – Journal article, DOI: 10.1016/j.aej.2023.08.068
  8. 🏠 “Influence of the Heating System on the Indoor Environmental Quality—Case Study” (2022) – Journal article, DOI: 10.3390/buildings12081088
  9. 🌿 “An Extensive Study for a Wide Utilization of Green Architecture Parameters in Built Environment Based on Genetic Schemes” (2021) – Journal article, DOI: 10.3390/buildings11110507
  10. 🏡 “Towards an Adaptation of Efficient Passive Design for Thermal Comfort Buildings” (2021) – Journal article, DOI: 10.3390/su13179570

Conclusion

Silvia Vilčeková’s extensive experience in sustainable construction, leadership roles, and significant research contributions make her a strong candidate for the Best Researcher Award. Her work not only advances academic knowledge but also impacts the construction industry, making her deserving of this recognition. Expanding her international collaborations and public engagement could further amplify her influence in the field.

Shubham Jaiswal | Construction Award | Best Researcher Award

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Mr Shubham Jaiswal | Construction Award | Best Researcher Award

Mr Shubham Jaiswal, University of Birmingham ,United Kingdom

Shubham Jaiswal is a PhD candidate in Civil Engineering at the University of Birmingham, focusing on Construction 4.0 applications in developing countries. With a Master’s in Construction Management from Pune University, India, and a background in Civil Engineering, he has actively researched cost overruns in real estate projects and anaerobic digestion for biogas production. Shubham’s academic journey includes a Diploma in Civil Engineering and a Bachelor’s from Sant Gadge Baba Amravati University. He is skilled in AutoCAD, MS Office, and project management software, complemented by strong communication abilities. Outside academia, Shubham enjoys swimming, singing, and playing the Cajon box. His professional experiences include roles in student placement coordination and organizing national conferences. Currently, his research interests lie in advancing sustainable construction practices and infrastructure development in underserved regions.

Publication Profile

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Education

Shubham  Jaiswal holds a PhD candidacy in Civil Engineering at the University of Birmingham since March 2023. He completed his Master’s in Construction Management at Pune University, India, achieving a CGPA of 8.07, and earned a Bachelor’s in Civil Engineering from Jagadambha College of Engineering and Technology with a CGPA of 8.11. His academic journey began with a Diploma in Civil Engineering from Government Polytechnic Yavatmal. Shubham has also undertaken specialized training in AutoCAD and project management software, enhancing his technical skills. His educational pursuits reflect a commitment to advancing knowledge in sustainable infrastructure and construction practices, particularly in addressing challenges faced by developing countries.

Experience 

Shubham Jaiswal brings diverse academic and professional experiences to his role. He served as Student Placement Coordinator at Jagadambha College of Engineering and Technology, Yavatmal, Maharashtra, India, overseeing student career development initiatives. Additionally, he contributed significantly as an organizing committee member for the national conference ‘XPLORE-17’. Shubham’s research journey includes investigating factors contributing to cost overruns in Indian real estate projects and exploring anaerobic digestion for biogas production from cow dung slurry. He has also conducted feasibility studies on innovative construction materials like jute fiber and artificial sand. These experiences underscore his dedication to bridging theoretical knowledge with practical applications in civil engineering, aiming to enhance infrastructure sustainability and efficiency.

Research focus

Shubham  Jaiswal’s research focuses on advancing Construction 4.0 methodologies in developing countries, particularly in improving construction efficiency and sustainability. His current PhD research at the University of Birmingham explores the application of digital technologies and automation to optimize infrastructure development processes. Previously, his studies have addressed critical issues such as cost overruns in real estate projects and innovative approaches to waste management through biogas production. Shubham is committed to leveraging his expertise in civil engineering and construction management to propose viable solutions that cater to the unique challenges faced by emerging economies. His work aims to foster inclusive and sustainable development practices that prioritize environmental stewardship and community well-being.

Publication Top Notes

“Construction 4.0: A Systematic Review of Its Application in Developing Countries”

 

Agnieszka Pieniążek | Sustainability Award | Best Researcher Award

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Dr Agnieszka Pieniążek | Sustainability Award | Best Researcher Award

Dr Agnieszka Pieniążek, Institute of Physics PAS , Poland

Agnieszka Pieniążek 🌟 is an Assistant Professor at the Institute of Physics PAS, Warsaw, Poland. She completed her doctoral studies in Physical Sciences and holds master’s degrees in Analytical Chemistry and Applied Physics from leading Polish universities. Agnieszka’s research focuses on wide bandgap semiconductors, perovskites, and nanostructures, exploring their optical and electronic properties. She has authored 22 SCI and Scopus indexed articles and holds a patent for quantum nanostructures. Recognized for her Outstanding Doctoral Dissertation by the Polish Society for Crystal Growth, she continues to contribute significantly to the field of materials science and semiconductor physics.

 

Publication Profile

Scopus

Education

Agnieszka Pieniążek pursued her academic journey with dedication and achievement. She completed her Doctoral Studies in Physical Sciences at the Institute of Physics PAS, Warsaw, Poland, spanning from October 2013 to June 2019. Prior to that, she earned a Master’s Degree in Analytical Chemistry from Maria Curie-Skłodowska University, Faculty of Chemistry, Lublin, Poland, during October 2008 to July 2013. Her educational foundation also includes a Master’s Degree in Applied Physics from the same university’s Faculty of Mathematics, Physics, and Computer Science, obtained between October 2007 and July 2012. 🎓

Awards

In June 2022, Agnieszka Pieniążek was honored with the Award from the Polish Society for Crystal Growth for her Outstanding Doctoral Dissertation titled “Local Optical Properties of ZnO Microrods Grown by Hydrothermal Method.” This prestigious accolade recognizes her exceptional research contributions in the field of crystal growth and semiconductor optics. Agnieszka’s dissertation delved into the intricate optical characteristics of ZnO microrods, cultivated through innovative hydrothermal techniques. Her work not only expands the understanding of semiconductor materials but also underscores her commitment to advancing scientific knowledge and applications in materials science. 🏆

Research Focus

Agnieszka Pieniążek 🌟 specializes in the research of wide bandgap semiconductors, perovskites, and nanostructures. Her work primarily revolves around investigating the optical and electronic properties of these materials, with a focus on understanding defects, structural dynamics, and their implications for optoelectronic applications. Through her studies, she explores topics such as the bandgap pressure coefficient in perovskite thin films, interdiffusion phenomena in semiconductor alloys, and the cathodoluminescence patterns of semiconductor microrods. Agnieszka’s contributions significantly advance the field of materials science, particularly in enhancing the efficiency and reliability of semiconductor devices for renewable energy and optoelectronics.

 

Publication Top Notes

“Can a bistable amphoteric native defect model explain the photo-induced transformation of MAPbI3 thin films?” by A. Pienia̧żek et al., Solar Energy Materials and Solar Cells, 2024, 274, 112974 📄 Cited by: 0

“Investigation of interdiffusion in thin films of ZnO/ZnCdO grown by molecular beam epitaxy” by M. Stachowicz et al., Thin Solid Films, 2023, 781, 140003 📄 Cited by: 3

“Bandgap Pressure Coefficient of a CH3NH3PbI3 Thin Film Perovskite” by A. Pienia̧żek et al., Journal of Physical Chemistry Letters, 2023, 14(28), pp. 6470–6476 📄 Cited by: 4

“Mixology of MA1-xEAxPbI3 Hybrid Perovskites: Phase Transitions, Cation Dynamics, and Photoluminescence” by M. Šimėnas et al., Chemistry of Materials, 2022, 34(22), pp. 10104–10112 📄 Cited by: 13

“Detailed surface studies on the reduction of Al incorporation into AlGaN grown by molecular beam epitaxy in the Ga-droplet regime” by D. Majchrzak et al., Vacuum, 2022, 202, 111168 📄 Cited by: 6