Sahar Ramadan | Sustainable Architecture | Research Excellence Award

Published on by Architecture Engineers

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

Associate Professor | Higher Technological Institute | Egypt

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

                       Citation Metrics (Google Scholar)

22

20

16

12

8

4

0

 

Citations
2
Documents
16
h-index
1

Citations

Documents

h-index

View Google Scholar Profile

Featured Publications

Simone Reber | Biophilic Design | Women Researcher Award

Published on by Architecture Engineers

Prof. Dr. Simone Reber | Biophilic Design | Women Researcher Award

Professor | Max Planck Institute for Infection Biology | Germany

Prof. Dr. Simone B. Reber is a Max Planck Fellow and Group Leader at the Max Planck Institute for Infection Biology and a W2-Professor of Biochemistry at the University of Applied Sciences Berlin, specializing in quantitative cell biology, biophysics, and cytoskeletal dynamics. She brings extensive professional experience shaped by leadership roles as an independent group leader, interdisciplinary collaborator, mentor, and investigator on major funded projects advancing cellular architecture, microtubule biology, and nucleocytoplasmic density regulation. Her research explores cytoplasmic material properties, spindle scaling, microtubule diversity across species, and parasite cytoskeletons, with influential contributions published in leading journals including Nature Cell Biology, Nature Communications, Current Biology, and PNAS. She has guided teams across multiple institutions, developed innovative imaging and biochemical approaches, and contributed substantially to methodological advances in cytoskeletal research. Prof. Reber’s work has earned distinctions such as Max Planck and Rosalind Franklin Fellowships, teaching awards for excellence in digital instruction, and invitations to speak at major international meetings. She serves on scientific and advisory committees, reviews grants for major funding bodies including ERC, DFG, and BBSRC, and holds reviewer responsibilities for leading journals. Her career reflects a sustained commitment to advancing fundamental cell biology, fostering scientific talent, and strengthening global research communities, and her research impact includes 2,517 citations, 33 publications, and an h-index of 17.

Profiles: Scopus | ORCID

Featured Publications

1. Biswas A., Muñoz O., Kim K., Hoege C., Lorton B.M., Shechter D., Guck J., Zaburdaev V., Reber S., Conserved nucleocytoplasmic density homeostasis drives cellular organization across eukaryotes. bioRxiv, 2023, doi:10.1101/2023.09.05.556409.

2. Kletter T., Muñoz O., Reusch S., Biswas A., Halavatyi A., Neumann B., Kuropka B., Zaburdaev V., Reber S., Cell state-specific cytoplasmic density controls spindle architecture and scaling. Nature Cell Biology, 2025, doi:10.1038/s41556-025-01678-x.

3. Troman L., de Gaulejac E., Biswas A., Stiens J., Kuropka B., Moores C., Reber S., Mechanistic basis of temperature-adaptation in microtubule dynamics across frog species. bioRxiv, 2024, doi:10.1101/2024.07.29.605571.

4. Bangera M., Wu J., Beckett D., Fachet D., Ferreira J.L., Voth G.A., Reber S., Moores C.A., Adaptations in Plasmodium tubulin determine unique microtubule architectures, mechanics and drug susceptibility. bioRxiv, 2025, doi:10.1101/2025.09.17.676853.

5. Kletter T., Muñoz O., Reusch S., Biswas A., Halavatyi A., Neumann B., Kuropka B., Zaburdaev V., Reber S., Cell state-specific cytoplasmic density controls spindle architecture and scaling. Nature Cell Biology, 2025, doi:10.1038/s41556-025-01678-x.

Prof. Dr. Simone B. Reber’s work uncovers the physical principles that govern cellular organization, revealing how cytoplasmic material properties shape the architecture and function of life across species. Her discoveries advance fundamental biology while driving innovation in biophysics, imaging, and parasite research, enabling new strategies for biomedical analysis and therapeutic development. Through interdisciplinary leadership, she strengthens scientific capacity and inspires next-generation approaches to understanding complex cellular systems.

Hyeonsoo Kim | Building Energy Optimization | Best Researcher Award

Published on by Architecture Engineers

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.