Jinsheng Wang – Civil Engineering – Best Researcher Award

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Professor Jinsheng Wang - Civil Engineering - Best Researcher Award

Beijing Normal University - China

AUTHOR PROFILE

GOOGLE SCHOLAR

🌊 SUMMARY

Professor Jinsheng Wang stands as a pioneering figure in hydrogeology, environmental science, and groundwater pollution control in China. He serves as Professor, Doctoral Supervisor, and Assistant Dean at the College of Water Sciences, Beijing Normal University. As the Head of two national research centers and an expert member of the Ministry of Environmental Protection, his career is marked by multidisciplinary excellence. His leadership in research, consultancy, and higher education has contributed significantly to shaping China’s groundwater management policies. With over two decades of dedicated scholarship and more than 30 landmark publications, Professor Wang's impact extends across academia, government policy, and environmental engineering practices.

🎓 EARLY ACADEMIC PURSUITS

Professor Wang began his academic journey with a Master’s degree in Hydrogeology at Jilin University (1989–1991), later completing his Doctorate in the same field at the same university (1995–1998). His foundational years were shaped by a deep interest in groundwater dynamics, which evolved into a lifelong research commitment. The rigorous training at Jilin equipped him with advanced field knowledge in hydrogeological systems, groundwater modeling, and environmental assessments. His scholarly formation during this period laid the groundwork for his later expertise in numerical simulations, aquifer dynamics, and pollution remediation. He emerged from this phase with a strong academic identity, blending geoscience with environmental applications.

🏢 PROFESSIONAL ENDEAVORS

Currently, Professor Wang holds multiple leadership roles at Beijing Normal University, including Assistant Dean of the College of Water Sciences and Head of two key research centers: the Engineering Research Center of Groundwater Pollution Control and Remediation (Ministry of Education) and the Groundwater Science and Engineering Research Center. He has served as Principal Investigator for national and international research projects sponsored by the Ministry of Science and Technology, Natural Science Foundation of China, and other governmental agencies. His consultancy contributions span emergency environmental response, water conservation planning, and transboundary water studies. He is also a part-time professor at Jilin University, nurturing the next generation of hydrogeologists.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Professor Wang’s primary research focus revolves around groundwater renewability, pollution dynamics, and water resource modeling. His work integrates hydrochemical analysis, isotopic tracing, and numerical simulations to investigate groundwater systems in critical areas like the Beijing Plain and Yellow River Basin. He has contributed to the development of evaluation indicators for groundwater renewability, environmental impact modeling, and groundwater vulnerability assessment. His research supports sustainable water policy, enhances disaster management systems, and informs national groundwater legislation. Notably, his findings on aquifer recharge, pollutant migration, and water-rock interactions have advanced both academic literature and practical groundwater management strategies in China.

🏅 ACCOLADES AND RECOGNITION

Recognized nationally and internationally, Professor Wang has been entrusted with prestigious positions and major projects, reflecting his deep trust in scientific integrity and environmental stewardship. He was selected as a core member of the first Expert Group on Emergency Management under China’s Ministry of Environmental Protection. His scholarly outputs have been published in top-tier journals and government white papers, establishing him as a thought leader. His academic books, such as those co-authored on the Wenchuan Earthquake and groundwater in the Yellow River Basin, have become reference texts. His engineering insights are not only valued in academia but have become tools for policymakers and field engineers alike.

🌍 IMPACT AND INFLUENCE

The influence of Professor Wang extends beyond academic citations into real-world environmental and water policy reforms. His research has directly shaped groundwater protection action plans across China and improved early warning systems for environmental emergencies. He has enhanced technical understanding among stakeholders at the local and national levels, facilitating sustainable water use frameworks. Internationally, his collaborations have led to joint conferences, workshops, and peer-reviewed publications that bridge Chinese hydrogeology with global environmental concerns. Through mentorship, he has cultivated young scholars who now carry forward his mission in groundwater sustainability and environmental resilience.

🧬 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Professor Wang is set to lead new frontiers in climate-resilient water management, groundwater recharge modeling, and integrated environmental systems. His vision includes refining vulnerability assessments using AI, promoting international knowledge exchange, and enhancing community-based water governance. His legacy is rooted in a deep understanding of natural systems and a commitment to advancing science for societal benefit. As an academic architect of China’s groundwater policies and a global contributor to environmental geosciences, Professor Wang’s future endeavors promise to leave a profound mark on the planet’s water future.

PUBLICATION

A level set method for structural topology optimization
Authors: MY Wang, X Wang, D Guo
Journal: Computer Methods in Applied Mechanics and Engineering

Molecular determinants of the response of glioblastomas to EGFR kinase inhibitors
Authors: IK Mellinghoff, MY Wang, I Vivanco, DA Haas-Kogan, S Zhu, EQ Dia, ...
Journal: New England Journal of Medicine

Contamination features and health risk of soil heavy metals in China
Authors: H Chen, Y Teng, S Lu, Y Wang, J Wang
Journal: Science of the Total Environment

State of the climate in 2015
Authors: J Blunden, DS Arndt
Journal: Bulletin of the American Meteorological Society

Postoperative biomarkers predict acute kidney injury and poor outcomes after adult cardiac surgery
Authors: CR Parikh, SG Coca, H Thiessen-Philbrook, MG Shlipak, JL Koyner, ...
Journal: Journal of the American Society of Nephrology

High-resolution magnetostratigraphy of the Neogene Huaitoutala section in the eastern Qaidam Basin on the NE Tibetan Plateau, Qinghai Province, China and its implication on …
Authors: X Fang, W Zhang, Q Meng, J Gao, X Wang, J King, C Song, S Dai, Y Miao
Journal: Earth and Planetary Science Letters

A Multicentre Study of Shigella Diarrhoea in Six Asian Countries: Disease Burden, Clinical Manifestations, and Microbiology
Authors: L Von Seidlein, DR Kim, M Ali, H Lee, XY Wang, VD Thiem, DG Canh, ...
Journal: PLoS Medicine

Parity-forbidden transitions and their impact on the optical absorption properties of lead-free metal halide perovskites and double perovskites
Authors: W Meng, X Wang, Z Xiao, J Wang, DB Mitzi, Y Yan
Journal: The Journal of Physical Chemistry Letters

“Color” level sets: a multi-phase method for structural topology optimization with multiple materials
Authors: MY Wang, X Wang
Journal: Computer Methods in Applied Mechanics and Engineering

An inactivated enterovirus 71 vaccine in healthy children
Authors: R Li, L Liu, Z Mo, X Wang, J Xia, Z Liang, Y Zhang, Y Li, Q Mao, J Wang, ...
Journal: New England Journal of Medicine

Rong Chen – Materials Science and Engineering – Women Researcher Award

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Rong Chen - Materials Science and Engineering - Women Researcher Award

China university of Geosciences - China

AUTHOR PROFILE

SCOPUS

SUMMARY

Rong Chen is an Associate Professor at China University of Geosciences in Wuhan, recognized for significant contributions to laser manufacturing. Research includes laser welding, laser cladding, and laser 3D printing, focusing on improving joint strength, microstructure manipulation, and composite reinforcement. Over 20 publications have appeared in esteemed journals, addressing advanced manufacturing techniques and material behavior under external fields. With prior experience as a senior research fellow at City University of Hong Kong, the academic background and practical insights position Rong Chen as a leader in applied materials engineering and modern manufacturing technologies.

EDUCATION

A Ph.D. was earned from Huazhong University of Science and Technology in 2018, establishing a strong foundation in materials engineering and laser processing. Postdoctoral experience was gained through a research fellowship at City University of Hong Kong from 2019 to 2020. The academic path has been shaped by multidisciplinary approaches, combining advanced experimental design with theoretical modeling in materials processing. Educational milestones were marked by rigorous training in materials science, welding engineering, and microstructural analysis, leading to a comprehensive skill set relevant to both academic and industrial sectors.

PROFESSIONAL EXPERIENCE

Currently serving as Associate Professor and master’s supervisor at China University of Geosciences, Wuhan. Previously held a senior research fellowship at City University of Hong Kong. Career has focused on laser-based manufacturing processes, supervising graduate-level research, and managing funded scientific projects. Practical roles include leading government-funded initiatives such as the National Natural Science Foundation’s Youth Project and the Wuhan Innovation Foundation. With experience in both academic research and institutional collaboration, the career path demonstrates leadership in cutting-edge manufacturing processes and academic mentorship.

RESEARCH INTEREST

Research concentrates on laser manufacturing technologies, including laser welding, laser cladding, and laser 3D printing. Core areas include interface control, fatigue resistance, magnetic field-assisted welding, and graphene-reinforced composites. Studies also explore intermetallic bonding, joint durability, and microstructural evolution under external influences. Emphasis is placed on sustainable, high-performance fabrication of metal alloys and dissimilar material systems. Advanced characterization techniques are integrated to understand phenomena like crack propagation, crystallographic orientation, and corrosion resistance. Innovations contribute to automotive, aerospace, and structural engineering applications.

AWARD AND HONOR

Recognized through prestigious research funding, including three government-sponsored projects. Achievements include leading roles in the National Natural Science Foundation (Youth Project) and the Wuhan Innovation Foundation. Academic publications in top-tier journals further establish recognition in the global materials science community. Invitations to collaborate and contribute to high-impact research initiatives reflect the professional excellence and impact within laser materials processing and hybrid welding technologies. Contributions are acknowledged by peers and institutions for advancing laser-based joining processes and metal composite developments.

RESEARCH SKILL

Demonstrates expertise in laser-based material processing, magnetic field-assisted welding, and advanced characterization of metal interfaces. Skilled in microstructure-property relationship analysis using modern microscopy and spectroscopic methods. Strong command over experimental design, fatigue testing, corrosion studies, and mechanical property evaluation. Additional competencies include interfacial chemistry analysis, hybrid welding techniques, and metal matrix composite development. Capable of integrating academic theory with practical manufacturing solutions. Offers mentorship in high-level research projects and collaborative innovation with industry partners.

PUBLICATIONS TOP NOTED

Top publications appear in Composite Structures, Materials Science & Engineering A, Journal of Materials Science, and Corrosion Science. Notable studies include interface enhancement using magnetic fields, graphene-reinforced composites, and joint strength optimization. Work in Journal of Materials Processing Technology and Materials Characterization presents advancements in microstructural control and fatigue resistance. Each paper reflects a focused inquiry into material behavior under laser and magnetic influence, contributing significantly to both academic and industrial knowledge in manufacturing and materials design.

Title: Tuning of the mechanical properties of a laser powder bed fused eutectic high entropy alloy Ni30Co30Cr10Fe10Al18W2 through heat treatment
Authors: [Author names not specified in input]
Journal: Materials Science and Engineering A

Title: Multi-Objective Optimization of the Ultrasonic Scalpel Rod and Tip with Improved Performance: Vibration Frequency, Amplitude, and Service Life
Authors: [Author names not specified in input]
Journal: Chinese Journal of Mechanical Engineering (English Edition)

CONCLUSION

Rong Chen stands out as a prominent academic in the field of materials engineering and laser manufacturing. With deep expertise in hybrid welding, external field applications, and composite materials, contributions have shaped current research and practice. A consistent publication record, leadership in funded projects, and a commitment to education and innovation underpin a strong academic presence. Future research aims to integrate sustainable practices with high-performance materials processing, advancing technological development across industries.

Yu Wang – Urban Planning – Best Researcher Award

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Yu Wang - Urban Planning - Best Researcher Award

Tianjin University - China

AUTHOR PROFILE

ORCID

SUMMARY

Yu Wang is an Associate Professor at Tianjin University, actively contributing to urban and regional planning with a focus on resilient, healthy, and data-driven urban environments. Extensive experience across academia and applied research has enabled significant contributions to urban governance, green space evaluation, smart city strategies, and sustainable planning. Leadership roles and multiple funded projects highlight a consistent drive for innovative solutions in urban development. The work bridges the gap between theoretical insight and practical urban challenges, benefiting both academia and policy-making.

EDUCATION

Academic qualifications include a PhD in Geography and Planning from the University of Liverpool, a Master’s degree in Urban and Regional Planning from Peking University, and a Bachelor’s in Architecture from Wuhan University. This multidisciplinary academic trajectory supports a holistic understanding of spatial planning, urban sustainability, and architectural principles. Each educational milestone has contributed to shaping a comprehensive and globally informed perspective on city planning, enabling in-depth research and teaching that integrates planning theory, spatial analysis, and socio-environmental design.

PROFESSIONAL EXPERIENCE

Currently Vice Director of the Centre of International Cooperation and Associate Professor at Tianjin University, Yu Wang has held prior roles as Teaching Fellow and Research Associate at institutions including the University of Glasgow. Professional roles span leadership, teaching, international collaboration, and consultancy. Experience includes strategic planning, managing interdisciplinary teams, supervising research projects, and delivering expert consultation to urban development authorities. The academic-industry interface has been a consistent part of this career, enriching both research outputs and urban development practices.

RESEARCH INTEREST

Research interests focus on resilient and healthy urban environments, smart city governance, and data-driven urban planning. Themes such as public space utilization, community-level resilience, and spatial accessibility are central. Ongoing inquiries also explore how built environments influence social capital and well-being. There is a strong emphasis on interdisciplinary methods integrating geospatial analysis, big data, and participatory design. The research direction aims to improve urban sustainability, promote equity in public service distribution, and guide decision-making through empirical, scalable evidence.

AWARD AND HONOR

Recognition includes multiple roles as principal investigator on major government and institution-funded projects. Leadership in international symposiums, invited talks, and editorial contributions affirms the role as a respected voice in urban planning discourse. Notable engagements include keynote sessions in ASEAN-China forums and international planning conferences. Participation in major urban policy consultations and reports for the Blue Book of Urban Community Development also reflects professional trust and domain expertise. This standing contributes to ongoing influence in shaping both research trends and policy agendas.

RESEARCH SKILL

Research competencies span geospatial modeling, big data analysis, remote sensing, GIS, and spatial-temporal analytics. Proficiency includes CA–Markov modeling, mobile phone data analysis, urban heat island prediction, and socio-spatial mapping. Additionally, expertise in interdisciplinary methods allows integration of environmental, demographic, and behavioral datasets into actionable urban policies. Skillset also includes advanced urban simulation, design thinking for planning, and participatory assessment methods. The methodological approach combines quantitative precision with qualitative insight, supporting policy-relevant and academically rigorous research outputs.

PUBLICATIONS TOP NOTED

Publications cover high-impact journals including Buildings, PlosONE, Remote Sensing, Sustainable Cities and Society, and ISPRS. Topics include built environment influence on social capital, urban heat islands, green space accessibility, and spatial segregation. Work is characterized by methodological diversity and thematic relevance to pressing urban challenges. Highlights include studies on smart city technologies, epidemic response infrastructure, and urban renewal. Co-authored reports in national planning bluebooks enhance practical application. The publication record reflects a balance of scholarly rigor and real-world policy engagement.

CONCLUSION

Yu Wang exemplifies a modern academic who bridges theoretical innovation with practical application. The academic career is marked by interdisciplinary integration, leadership in funded research, and a commitment to urban resilience and social equity. As cities face complex challenges from aging populations to climate change, the work stands out for providing grounded, data-informed, and forward-thinking solutions. Continued involvement in national and international platforms ensures ongoing contribution to shaping sustainable and inclusive urban futures.

Anis Asadi Ardebili – Construction Management – Best Researcher Award

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Anis Asadi Ardebili - Construction Management - Best Researcher Award

Polytechnic university of Madrid - Australia

AUTHOR PROFILE

SCOPUS

SUMMARY

Anis Asadi Ardebili is a research-driven architectural and building innovation specialist focused on sustainable material development and construction practices. With advanced academic training from the Polytechnic University of Madrid, he contributes to the integration of technological innovations in civil and architectural engineering. His work explores material reuse, urban sustainability, and performance optimization of construction systems. His academic pursuits are reinforced by practical experience in design and teaching, providing a holistic approach to research, education, and innovation. He continues to contribute to high-impact publications and international academic platforms in architecture, construction materials, and environmental building practices.

EDUCATION

Completed advanced studies in architecture and technological innovation in building across prominent Iranian and Spanish institutions. Gained specialized knowledge in public building design, ethnomusicological space planning, and architectural identity through bachelor's, master’s, and doctoral programs. Key academic contributions include architectural thesis projects focusing on cultural and urban design themes. His PhD at the Polytechnic University of Madrid centers on sustainable construction materials and technological improvements in building performance. Academic mentors and institutional affiliations have shaped his multidisciplinary understanding of architecture, design theory, and building technology within both traditional and contemporary contexts.

PROFESSIONAL EXPERIENCE

Experience spans academic instruction and applied architectural research. Contributed as a lecturer and teaching assistant in foundational architecture courses, engaging with large student groups and assisting in curriculum design and evaluation. Responsibilities included delivering lessons on geometry, perspective, and architectural comprehension. Additionally, collaborated on academic research addressing environmental and technological aspects of architecture. Through these roles, demonstrated a commitment to pedagogical clarity and intellectual development in design education. Professional practice also includes analyzing architectural identity and sustainable urban growth, merging theoretical research with practical applications to inform innovative and eco-conscious construction solutions.

RESEARCH INTEREST

Research focuses on sustainable construction technologies and material innovation. Key areas include optimization of grout mixtures using industrial waste and alternative binders, and evaluating their performance under variable environmental conditions. Investigates how recycled materials from demolition and automotive sectors can enhance the mechanical and ecological performance of building composites. Also explores energy-efficient rehabilitation of public buildings and user-centered design strategies. Broader interests extend to assessing the environmental footprint of construction practices and incorporating human-centric parameters in architecture for urban sustainability, thermal comfort, and resource efficiency in contemporary and historical architectural contexts.

AWARD AND HONOR

Recognized for contributions to civil engineering research and architectural sustainability, particularly in advancing material reuse and energy-efficient construction strategies. Participated in national and international collaborations that highlight emerging research on waste incorporation into construction materials. Award considerations stem from academic excellence, multidisciplinary research outcomes, and commitment to environmentally responsible design. Engagement with institutions in Spain and Iran positions his research as globally relevant, aligning with both academic and industry-driven goals in sustainable development. Future accolades are anticipated from his ongoing submissions to high-impact journals and participation in research symposiums and sustainability initiatives.

RESEARCH SKILL

Proficient in material testing, performance evaluation, and comparative analysis of composite systems. Skilled in designing experimental studies involving recycled waste incorporation into gypsum and cementitious products. Adept in analyzing thermal comfort parameters in architectural spaces and assessing environmental impacts using quantitative and qualitative methods. Possesses architectural design abilities informed by cultural context and urban dynamics. Combines technical laboratory skills with theoretical understanding of sustainable design. Research capabilities are further demonstrated through contributions to peer-reviewed publications, manuscript development, and academic instruction in architectural fundamentals and design-oriented problem-solving.

PUBLICATIONS TOP NOTED

Published multiple peer-reviewed articles in journals such as Materials in Civil Engineering and Construction and Building Materials. Noteworthy publications include: "Mechanical characterization of gypsum-based composites with single-use sling waste fibers," and "Mechanical characterization of gypsum mortars with waste from the automotive sector." Other key works examine urban tourism's impact on sustainability and identity in Iranian architecture. A submitted manuscript titled "Thermal Comfort and Energy Efficiency in Public Building Rehabilitation" reflects a growing focus on integrating building science with user needs. These works reflect a blend of material science, environmental responsibility, and urban design.

CONCLUSION

Anis Asadi Ardebili’s academic and research trajectory demonstrates a strong commitment to sustainable building practices and innovative architectural solutions. His interdisciplinary focus connects material technology with urban development and human-centered design. With expertise in both theoretical analysis and applied research, he bridges the gap between tradition and innovation in architecture. His dedication to advancing environmentally conscious construction methods and engaging in impactful teaching solidifies his position as a forward-thinking contributor to architectural education and civil engineering research. Continued publication, research collaboration, and educational leadership will define the next phase of his career.

Erik C. Backus – Construction Management – Best Researcher Award

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Erik C. Backus - Construction Management - Best Researcher Award

Clarkson University - United States

AUTHOR PROFILE

SCOPUS

SUMMARY

Dr. Erik C. Backus is a recognized leader in construction engineering and facility decision-making, currently serving as Professor and Director of the Construction Engineering Management (CEM) program at Clarkson University. His career spans academia, the military, and public infrastructure, blending leadership, research, and strategic planning. A retired Lieutenant Colonel in the U.S. Army Corps of Engineers, he has managed multimillion-dollar construction projects globally. His work emphasizes sustainability, resilience, and holistic planning. Through teaching, publications, and service, Dr. Backus advances infrastructure innovation while mentoring future engineers and influencing policy on energy-efficient, sustainable, and smart facilities.

EDUCATION

Dr. Backus holds a Ph.D. in Engineering Science from Clarkson University, where he developed a decision-making framework for facilities management. He also earned Master’s and Bachelor’s degrees in Civil Engineering, concentrating on construction engineering and infrastructure technologies. His academic journey underpins his expertise in strategic facility planning, systems thinking, and construction innovation. His doctoral work forms the foundation of his contributions to sustainable planning systems and resilient infrastructure. By combining rigorous technical education with practical experience, Dr. Backus has built a reputation for bridging the gap between engineering theory and the challenges faced in real-world facility operations.

PROFESSIONAL EXPERIENCE

Dr. Backus’s extensive experience includes academic, military, and institutional leadership roles. He has directed Clarkson University's CEM program since 2014, leading curriculum development, research, and industry partnerships. His previous roles include Engineering Planner and Project Manager at George Mason University and Chief of Engineering at Joint Base Myer-Henderson Hall. A U.S. Army combat veteran, he managed infrastructure in conflict zones, overseeing over $300 million in projects. He has also served as Battalion Commander, Design Engineer, and Project Officer in the Army Reserve. These diverse roles reflect a career committed to excellence, resilience, and sustainable construction practices.

RESEARCH INTEREST

Dr. Backus focuses on decision-making frameworks for facilities and infrastructure projects, sustainable construction methods, and community resilience. His research integrates engineering design, data-driven planning, and sustainable systems, including LEED for Communities certification. He is the lead investigator in studies assessing holistic planning in multi-jurisdictional regions and contributes to the New York State Climate Impacts Assessment. He explores how facilities systems can adapt to environmental challenges through informed, strategic decisions. His research bridges environmental engineering, infrastructure development, and policy, offering transformative solutions for smart, resilient, and efficient built environments in education, defense, and municipal sectors.

AWARD AND HONOR

Dr. Backus has received numerous awards including the Bronze Star Medal, Best Paper Awards, and honors from APPA and USGBC. He was named “Professor to Know” in Civil Engineering and has been a recipient of community leadership awards such as the USGBC Community Leader of the Quarter. His Army commendations reflect excellence in combat engineering and public works, while academic awards highlight his teaching impact and research contributions. Recognized for sustainable infrastructure leadership, he played a central role in securing the first multi-jurisdictional LEED for Communities certification, illustrating his pioneering role in green urban planning.

RESEARCH SKILL

Dr. Backus brings expert-level knowledge in infrastructure decision-making, facilities management, sustainability assessment, and project planning. He is skilled in software like AutoCAD, ArcGIS, MS Project, and RS Means for estimating. His technical strengths include LEED certification processes, construction programming, resilience planning, and informatics for facility management. He has led facility-related consulting initiatives, authored national guidelines, and applied systems thinking to climate impacts. Dr. Backus’s research skills extend to integrating technical standards with strategic policy, enabling high-performance building systems. He combines military engineering precision with academic insight to drive sustainable and resilient infrastructure practices.

PUBLICATIONS

  • Title: Balancing practicality and aspiration: A comparative analysis of sustainable holistic planning system toolkit designs

  • Authors: Anne E. Mosher (A.E. Mosher), Stephen D. Bird (S.D. Bird), Santosh K. Mahapatra (S.K. Mahapatra), JosĂ©ph D. Skufca (J.D. Skufca), Erik Carl Backus (E.C. Backus)

  • Journal: Landscape and Urban Planning

CONCLUSION

Dr. Erik C. Backus stands at the intersection of engineering practice, academic leadership, and public service. His interdisciplinary expertise enables him to develop sustainable, resilient, and cost-effective infrastructure systems. As a veteran, educator, and planner, he blends rigorous research with practical implementation, influencing policy and teaching the next generation of engineers. With proven leadership in military and civilian sectors, and a strong publication and grant record, Dr. Backus continues to drive progress in climate-resilient infrastructure and sustainable facility management. His work exemplifies innovation and integrity in advancing the built environment for communities and institutions alike.