Assistant Professor at Texas A&M University - Corpus Christi | United States
Assist. Prof. Dr. Nancy Soliman is a highly accomplished figure in Civil Engineering, bringing deep expertise to structural materials and infrastructure innovation. Her Engineering work integrates sustainability, advanced concrete technology, and multiscale analysis. She has contributed to cutting-edge Engineering projects that enhance durability, performance, and energy efficiency in construction materials. Nancy Soliman leads pioneering Engineering research, including smart concrete, CO₂-capturing composites, and multifunctional materials. Her Engineering efforts bridge academia, industry, and international collaborations, strengthening future civil infrastructure. This summary reflects her impact as a leader in Engineering research, innovation, and education, positioning her as a significant contributor to modern, sustainable infrastructure solutions on a global scale.
Professional Profiles
Google Scholar Profile | ORCID Profile
Education
Assist. Prof. Dr. Nancy Soliman has a strong academic background in Civil Engineering. She earned advanced Engineering degrees from highly respected institutions, demonstrating excellence in structural materials and geotechnical Engineering. Her doctoral studies in Structural Materials Engineering focused on developing ultra-high-performance concrete using recycled materials for sustainable applications. Postdoctoral research at world-renowned institutions advanced Engineering knowledge in smart, electron-conductive cement composites. Throughout her academic journey, she explored Engineering solutions for structural durability, sustainability, and multifunctionality. These Engineering-focused experiences equipped her with the expertise to innovate in high-performance materials and lead future Engineering research efforts that meet global infrastructure challenges while advancing environmental and technological goals.
Experience
Assist. Prof. Dr. Nancy Soliman has extensive Engineering professional experience across academia, industry, and collaborative research networks. She serves as an Assistant Professor of Civil Engineering, leading laboratory development, curriculum innovation, and major Engineering projects funded by competitive grants. Her Engineering practice includes creating sustainable ultra-high-performance concrete, electron-conductive composites, and CO₂-capturing structural materials. Previously, she contributed Engineering expertise to prestigious institutions like MIT and Ryerson University, advancing smart materials and eco-friendly solutions. Her Engineering leadership has fostered partnerships between academic, governmental, and industrial sectors. This Engineering-driven career path highlights her dedication to translating fundamental research into practical, high-impact solutions for resilient, sustainable infrastructure worldwide.
Research Interest
Assist. Prof. Dr. Nancy Soliman’s research interests focus on advancing Engineering knowledge in civil infrastructure materials. She investigates sustainable Engineering solutions for concrete, multifunctional composites, and carbon utilization in construction. Her Engineering work spans multiscale chemo-mechanical characterization, durability enhancement, and smart material design. She studies electron-conductive concrete for self-sensing and self-heating, pioneering Engineering approaches to energy-efficient structures. Additionally, she explores recycling industrial byproducts, advancing green Engineering technologies. By combining experimental, analytical, and modeling techniques, she addresses pressing Engineering challenges, offering innovative strategies for future-ready infrastructure systems. These Engineering-driven interests align with global priorities for sustainable, resilient, and technologically advanced construction practices.
Award and Honor
Assist. Prof. Dr. Nancy Soliman has earned numerous distinctions in Engineering, recognizing her exceptional contributions to research, innovation, and education. Her Engineering achievements include best thesis, best invention, and best presentation awards in prestigious international conferences. Leading organizations have honored her Engineering excellence through fellowships, teaching awards, and competitive research grants. She has been nominated and recognized for instructional innovation, demonstrating her impact in Engineering education. Her achievements reflect global recognition of her Engineering leadership in sustainable materials and advanced infrastructure technologies. These awards highlight a career marked by creativity, dedication, and significant advancements in modern Engineering science and practice.
Research Skill
Assist. Prof. Dr. Nancy Soliman possesses diverse Engineering research skills essential for innovation in infrastructure materials. Her Engineering expertise spans experimental design, multiscale testing, material modeling, and process optimization. She applies advanced Engineering techniques to develop eco-friendly ultra-high-performance concrete, electron-conductive composites, and CO₂-capturing materials. Her skills integrate chemical, mechanical, and computational Engineering approaches, bridging theory and application. She leads Engineering projects from laboratory scale to real-world implementation, ensuring scientific rigor and practical relevance. By combining analytical insight with creative Engineering problem-solving, she drives breakthroughs in material performance, sustainability, and functionality. These skills make her a critical contributor to advancing global Engineering solutions.
Publication Top Notes
Title: Development of ultra-high-performance concrete using glass powder–Towards ecofriendly concrete
Journal: Construction and Building Materials
Authors: NA Soliman, A Tagnit-Hamou
Citation: 374
Title: Partial substitution of silica fume with fine glass powder in UHPC: Filling the micro gap
Journal: Construction and Building Materials
Authors: NA Soliman, A Tagnit-Hamou
Citation: 277
Title: Using glass sand as an alternative for quartz sand in UHPC
Journal: Construction and Building Materials
Authors: NA Soliman, A Tagnit-Hamou
Citation: 238
Title: Using Particle Packing and Statistical Approach to Optimize Eco-Efficient Ultra-High-Performance Concrete.
Journal: ACI Materials Journal
Authors: NA Soliman, A Tagnit-Hamou
Citation: 124
Title: Nano-engineered ultra-high performance concrete for controlled autogenous shrinkage using nanocellulose
Journal: Cement and Concrete Research
Authors: OA Hisseine, NA Soliman, B Tolnai, A Tagnit-Hamou
Citation: 114
Title: Green ultra-high-performance glass concrete
Journal: International Interactive Symposium on Ultra-High Performance Concrete
Authors: A Tagnit-Hamou, N Soliman, A Omran
Citation: 101
Title: Reproductive hormonal changes and catamenial pattern in adolescent females with epilepsy
Journal: Epilepsia
Authors: HA El-Khayat, NA Soliman, HY Tomoum, MA Omran, AS El-Wakad, ...
Citation: 67
Title: Performance of ground-glass pozzolan as a cementitious material—A review
Journal: Advances in Civil Engineering Materials
Authors: A Omran, N Soliman, A Zidol, A Tagnit-Hamou
Citation: 56
Title: Laboratory Characterization and Field Application of Novel Ultra-High-Performance Glass Concrete.
Journal: ACI Materials Journal
Authors: NA Soliman, AF Omran, A Tagnit-Hamou
Citation: 55
Title: Field trials with concrete incorporating biomass-fly ash
Journal: Construction and Building Materials
Authors: A Omran, N Soliman, A Xie, T Davidenko, A Tagnit-Hamou
Citation: 48
Title: Micro-chemo-mechanical features of ultra-high performance glass concrete (UHPGC)
Journal: Theoretical and Applied Fracture Mechanics
Authors: W Wilson, NA Soliman, L Sorelli, A Tagnit-Hamou
Citation: 42
Title: Electric energy dissipation and electric tortuosity in electron conductive cement-based materials
Journal: Physical Review Materials
Authors: NA Soliman, N Chanut, V Deman, Z Lallas, FJ Ulm
Citation: 23
Title: Ground glass Pozzolan in conventional, high, and ultra-high performance concrete
Journal: MATEC Web of Conferences
Authors: A Tagnit-Hamou, A Zidol, N Soliman, J Deschamps, A Omran
Citation: 23
Title: Piezoelectric ring actuator technique to monitor early-age properties of cement-based materials
Journal: Cement and Concrete Composites
Authors: NA Soliman, KH Khayat, M Karray, AF Omran
Citation: 21
Title: Effects of cellulose nanofibrils on rheological and mechanical properties of 3D printable cement composites
Journal: Cement and Concrete Composites
Authors: U Kilic, N Soliman, A Omran, OE Ozbulut
Citation: 17
Title: Ultra-high performance glass concrete and method for producing same
Journal: US Patent
Authors: A Tagnit-Hamou, N Soliman
Citation: 12
Title: Development of ultra-high-performance concrete (UHPC) using waste glass materials─ towards innovative eco-friendly concrete
Journal: Université de Sherbrooke
Authors: N Soliman
Citation: 9
Title: Synthesis and characterization of bentonite-based lightweight ceramic aggregates using coal combustion residue and kerosene bloating agent
Journal: Construction and Building Materials
Authors: F Hussain, A Omran, N Soliman
Citation: 8
Title: Assessing economic and environmental performance of infill materials through BIM: a life cycle approach
Journal: Smart and Sustainable Built Environment
Authors: ZW Sajid, SA Khan, F Hussain, F Ullah, RA Khushnood, N Soliman
Citation: 7
Title: The Piezo-electric Ring Actuator technique (P-RAT)–16 years of progress
Journal: Proceedings of the 72nd Canadian Geotechnical Conference
Authors: M Karray, G Lefebvre, K Khayat, MN Hussien, A Mhenni, M Ben Romdhan, ...
Citation: 7
Conclusion
Assist. Prof. Dr. Nancy Soliman’s career reflects an unwavering commitment to Engineering innovation, sustainability, and education. Her Engineering leadership advances the future of infrastructure materials, integrating green technologies with high-performance applications. Through research, teaching, and collaborative Engineering initiatives, she inspires progress toward smarter, more resilient civil systems. Her Engineering vision aligns with global needs, addressing environmental, structural, and energy challenges simultaneously. By transforming fundamental Engineering concepts into practical solutions, she builds pathways for next-generation infrastructure. This conclusion underscores her role as a prominent Engineering figure whose work bridges science, technology, and societal advancement, shaping the built environment for decades to come.