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

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

Principal Researcher | Electronics and Telecommunications Research Institute | South Korea

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

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Featured Publications

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

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

Research Assistant | Sharif University of Technology | Iran

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

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

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

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

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

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

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

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

Hyeonsoo Kim | Building Energy Optimization | Best Researcher Award

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Prof. Hyeonsoo Kim | Building Energy Optimization | Best Researcher Award

Assistant Professor | Seoul National University of Science and Technology | South Korea

Dr. Hyeonsoo Kim is a Postdoctoral Researcher at the Korea Institute of Civil Engineering and Building Technology (KICT) in the Building Energy Research Center, specializing in building energy systems and sustainable architecture. He earned his Ph.D. in Architecture from the University of Michigan, where his research focused on the economic feasibility of achieving net-zero energy and emission buildings in the United States. His professional background includes extensive work on projects related to carbon-neutral city realization, smart energy systems, and thermal break technologies for improving building performance. Dr. Kim has co-authored several impactful publications in leading journals such as Applied Energy, Journal of Cleaner Production, and Energy Conversion and Management: X, contributing significantly to the fields of net-zero energy building design, emission trading frameworks, and renewable-integrated heat pump systems. He has served in various academic leadership roles, including Editorial Board Member and Academic Director for the KIEAE Journal and Guest Editor for Buildings (MDPI). In addition, he has contributed as a moderator, instructor, and project lead in national and international collaborations advancing green building technologies. Dr. Kim holds the LEED Accredited Professional certification, reflecting his commitment to sustainable and high-performance building design. His research impact includes 52 citations, 5 publications, and an h-index of 3.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Kim H., Economic Feasibility of Achieving Net-Zero Energy in Residential Buildings in the USA. 2023.

2. Junghans L., Kim H., Evaluation of multiple predictive control strategies to optimally use building thermal mass to reduce annual operation costs and associated GHG emissions. J. Build. Eng., 2025, 112, 113963.

3. Kim H., Junghans L., Economic feasibility of achieving net-zero emission building (NZEB) by applying solar and geothermal energy sources to heat pump systems: A case in the United States. J. Clean. Prod., 2023, 416, 137822.

4. Kim H., Junghans L., Integrative economic framework incorporating the Emission Trading Scheme (ETS) for US residential energy systems. Energy Convers. Manag.: X, 2022, 14, 100197.

5. Kim H., Lim J.W., Predicting the economic feasibility of solar-based net-zero emission buildings (NZEBs) in the United States non-residential sector. J. Clean. Prod., 2024, 470, 143272.

Dr. Hyeonsoo Kim’s research advances global sustainability by integrating renewable energy systems and intelligent control strategies to achieve net-zero energy buildings. His work contributes to reducing carbon emissions, guiding policy and industry practices toward resilient, energy-efficient, and environmentally responsible urban development.

Giuseppe Perfetto | Active Buildings | Excellence in Sustainable Architecture Award

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Mr. Giuseppe Perfetto | Active Buildings | Excellence in Sustainable Architecture Award

Executive Director | Solardesign |Italy

Giuseppe Perfetto is a Senior Architect, Sustainability Manager, and Academic Lecturer affiliated with the Polytechnic University of Turin, specializing in solar energy integration, building efficiency, and energy transition systems. With over twenty-five years of professional experience in architecture, renewable energy, and environmental engineering, he has led numerous large-scale solar PV, hydrogen, and zero-energy building projects across Italy and Europe. He has contributed to the advancement of sustainable architecture and municipal energy planning. His research focuses on Building-Integrated Photovoltaics (BIPV), dynamic shading systems, and adaptive energy-efficient design, reflected in publications such as Optimizing Building Performance with Dynamic Photovoltaic Shading Systems: A Comparative Analysis of Six Adaptive Designs in Smart Cities and multiple IEEE conference proceedings. An active educator, he has co-supervised several master’s theses and taught at leading institutions on environmental technical physics and sustainable building systems. Recognized for his expertise, he serves on international scientific committees, including the IEEE Conference on Electrical and Power Engineering, and holds certifications as an Energy Manager and Building Physics Certifier. His numerous honors and leadership roles in professional associations underscore his ongoing commitment to innovation, education, and excellence in sustainable design and energy transition. His research impact includes 5 citations, 3 publications, and an h-index of 2.

Profile: Scopus

Featured Publication

1. Perfetto G., Optimizing Building Performance with Dynamic Photovoltaic Shading Systems: A Comparative Analysis of Six Adaptive Designs. Smart Cities, 2025, Open Access

Mr. Giuseppe Maria Perfetto’s work advances the integration of renewable energy and adaptive design within architecture, driving the transition toward energy-positive and climate-responsive buildings. His research fosters innovation that bridges science, industry, and sustainability, contributing to global efforts toward carbon-neutral, intelligent built environments.

Lesiba George Mollo | Building Energy Efficiency | Best Researcher Award

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Dr. Lesiba George Mollo | Building Energy Efficiency | Best Researcher Award

Senior Lecturer | Central University of Technology | South Africa

Dr. Lesiba George Mollo is a Senior Lecturer in the Department of Built Environment at the Central University of Technology, Free State, South Africa, specializing in construction management and construction health and safety. He holds a PhD in Construction Management from Nelson Mandela University, where his research focused on reducing human failures in construction through the Training-Within-Industry (TWI) method. He also earned an MTech in Quantity Surveying (Cum Laude), a BTech in Quantity Surveying, and a National Diploma in Building, complemented by professional certifications in project and safety management. Dr. Mollo’s professional journey spans academic leadership as Acting Head of Department, Deputy Research Dean, and Research Chair, as well as practical roles with leading construction firms managing infrastructure, housing, and public works projects. His research expertise encompasses construction safety management, wearable sensing devices, 360° video technology for behavioral monitoring, and energy-efficient building technologies. He has published over forty scholarly outputs, including peer-reviewed journal articles, book chapters, and the authored volume Training-Within-Industry Job Programs for Improved Construction Safety (Routledge). Dr. Mollo actively contributes to academic development through postgraduate supervision, conference organization, and peer reviewing for international journals. He has received recognition for academic excellence, including the MTech Best Performance Award from Nelson Mandela University, and holds memberships in the South African Council for the Project and Construction Management Professions (SACPCMP) and the Association of South African Quantity Surveyors (ASAQS). He has 35 citations, 14 publications, and an h-index of 3.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Mollo, L. G. (2025). Evaluating the use of 360° video technology to monitor workers’ unsafe behaviour in the construction industry. In International Civil Engineering and Architecture Conference (pp. 685–693). Springer Nature Singapore.

2. Mollo, L. G., & Chomey, T. (2025). An analysis of barriers to the implementation of energy-efficient technologies in residential buildings: A quantitative approach. Buildings, 15(19), 3520.

3. Mtetwa, S. I., Mollo, L. G., & Emuze, F. (2024). Wearable sensing devices for better monitoring of health, safety, and wellbeing in construction. In Handbook of Drivers of Continuous Improvement in Construction Health, Safety, and Wellbeing (pp. 59–68). Routledge.

4. Mollo, L. G. (2024). Using wearable technologies to minimise occupational illnesses among construction workers. Proceedings of the Institution of Civil Engineers – Forensic Engineering, 177(2), 64–71.

5. Mollo, L. G., Emuze, F., & Smallwood, J. (2023). Causes of human failure on construction sites. In Training-Within-Industry Job Programs for Improved Construction Safety (pp. 13–27). Routledge.