Jialiang Wang is a postdoctoral fellow at Aarhus University in Denmark who obtained his Ph.D. at the Dalian University of Technology and the National University of Singapore in 2022, after which he worked for one year as a senior R&D engineer at Subot New Materials Co., LTD; his research focuses on nano-engineered cementitious composites, ultra-high performance and smart concrete, as well as solid waste utilization and recycling, and he has contributed to multiple major projects including two key R&D programs of the Ministry of Science and Technology, projects of the National Natural Science Foundation, Jiangsu Province, the Danish offshore center, and the COWI Foundation; he has authored two books in English and Chinese, five invention patents, and nearly 30 SCI-indexed papers, including highly cited works, while also serving as a review expert for the CSCIED Core Technology Evaluation Database, a committee member of the Chinese Society for Nanocomposites, and a task group member of the International Institute for FRP in Construction (IIFC TG2, UK), in addition to holding editorial and reviewer roles for SCI-indexed journals; his achievements have been recognized with numerous honors such as the 2025 China Materials Research Society Science and Technology Award, the 2023 China Building Materials Federation Science and Technology Award, the 2024 Outstanding Doctoral Dissertation of Liaoning Province and DUT, as well as scholarships including the National Scholarship, National Public Scholarship for studying abroad, and the China Harbor Scholarship.

• Nano-engineered cementitious composites
• Ultra-high performance/smart concrete
• Solid waste utilization and recycling

• B. Han, S. Ding, J. Wang, J. Ou. Nano-engineered cementitious composites: principles and practices. Springer, 2019. (Second author, First monograph in nano cement-based materials)
• J. Wang, B. Han. Nanocomposite enhancement and its microscopic mechanism of reactive powder concrete impact resistance. University of Electronic Science and Technology of China Press, 2026.
• J. Wang, M. Wu. Clinker-driven self-healing cement: A temperature-responsive mechanistic and microstructural evaluation. Cem. Concr. Res. 2026,... (IF=13.9, JCR Q1)
• J. Wang, M. Wu. Self-healing cement containing large clinker particles: recovery of transport properties and microstructure characteristics. Constr. Build. Mater. 2026,516,145707. (IF=8.4, JCR Q1)
• J. Wang, M. Wu. A preliminary study on an effective and simplistic self-healing concept for cement using coarse clinker particles as the healing agent. Cem. Concr. Res. 2025,193,107859 (IF=13.9, JCR Q1)
• F. Han, J. Wang*, X. Ji, S. Chen, J. Liu, M. Wu, J. Liu. Insights into the hydration kinetics and microstructural evolution of ultra-high performance cementitious composite at mid-to-low curing temperatures. Constr. Build. Mater. 2025,468,105129 (IF=8.4, JCR Q1)
• J. Wang, X. Wang, S. Ding, A. Ashour, F. Yu, X. Lv, B. Han. Micro-nano scale pore structure and fractal dimension of ultra-high performance cementitious composites modified with nanofillers. Cem. Concr. Compos. 2023,141,105192 (IF=13.9, JCR Q1)
• J. Wang, S. Dong, S. Pang, C. Zhou, B. Han. Pore structure characteristics of cementitious composites with surface-modified carbon nanotubes. Cem. Concr. Compos. 2022,128,104453 (IF=13.9, JCR Q1)
• J. Wang, S. Dong, S. Pang, X. Yu, B. Han, J. Ou. Tailoring anti-impact properties of concrete by incorporating functionalized carbon nanotubes. Engineering. 2022,18,232-245 (IF=12.8, ESI highly cited, JCR Q1)
• J. Wang, S. Dong, Z. Li, M. Sahmaran, S. Ding, B. Han. Understanding the effect of nano/micro-structures on anti-impact properties of nano-boron nitride filled concrete composites. Constr. Build. Mater. 2021,298,123885. (IF=8.4, JCR Q1)
• J. Wang, S. Dong, C. Zhou, A. Ashour, B. Han. Investigating pore structure of nano-engineered concrete with low-field nuclear magnetic resonance. J. Mater. Sci. 2021,56(1),243-259. (IF=4.5, JCR Q1)
• J. Wang, S. Dong, X. Yu, B. Han. Mechanical properties of graphene-reinforced reactive powder concrete at different strain rates. J. Mater. Sci. 2020,55(8),3369-3387. (IF=4.5, Highlight paper, JCR Q1)
• J. Wang, S. Dong, D. Wang, X. Yu, B. Han, J. Ou. Enhanced impact properties of concrete modified with nanofiller inclusions. J. Mater. Civ. Eng. 2019,31(5),04019030. (IF=3.65, JCR Q2)
• J. Wang, B. Han, Z. Li, X. Yu, X. Dong. Effect investigation of nanofillers on C-S-H gel structure with Si NMR. J. Mater. Civ. Eng. 2019,31(1),04018352. (IF=3.65, Most read paper, JCR Q2)
• J. Wang, S. Dong, A. Ashraf, X. Wang, B. Han. Dynamic mechanical properties of cementitious composites with carbon nanotubes. Mater. Today Commun. 2019,100722. (IF=4.5, JCR Q2)
• J. Wang, S. Ding, B. Han, Y. Ni, J. Ou. Self-healing properties of reactive powder concrete with nanofillers. Smart Mater. Struct. 2018,27(11),115033. (IF=4.1, JCR Q1)
• Y. Feng, J. Wang, S. Dong, S. Ding, B. Han. Understanding the effect of non-carbon-based nanoinclusions on chloride penetration resistance and chloride binding capacity of ultra-high performance cementitious composite. J. Build. Eng. 2024,90,109460 (IF=7.4, JCR Q1)
• S. Ding, J. Wang, S. Dong, A. Ashour, L. Qiu, B. Han. Developing multifunctional/smart civil engineering to fight viruses. ACS Sustainable Chem. Eng. 2022,10(2),678–690 (IF=8.4, JCR Q1)
• J. Zhang, J. Wang, S. Dong, X. Yu, B. Han. A review of the current progress and application of 3D printed concrete. Composites, Part A. 2019,105533. (IF=8.9, ESI highly cited, JCR Q1)
• F. Zhang, K. Pang, J. Li, W. Xu, J. Du, J. Wang, J. Zhang, Q. Liu, H. Xiao. Effect of micro-cellulose fiber on the mechanical, shrinkage properties and ballistic impact resistance of high-performance cement composites. Constr. Build. Mater. 2025,463,139963. (IF=8.4, JCR Q1)
• D. Yan, L. Qiu, J. Wang, A. Ashour, X. Wang, B. Han. Dynamic damage constitutive model for UHPC with nanofillers at high strain rates based on viscoelastic dynamic constitutive model and damage evolution equation. J. Build. Eng. 2024,83,108428 (IF=8.4, JCR Q1)
• S. Ding, S. Dong, A. Ashour, J. Wang, X. Wang, B. Han. Stainless steel wires reinforced ultra-high-performance concrete for self-moderating and self-sensing temperature deformations. Constr. Build. Mater. 2024,431,136563. (IF=8.4, JCR Q1)
• W. Du, F. Yu, L. Qiu, Y. Guo, J. Wang, B. Han. Effect of steel fibers on tensile properties of UHPC: A review. Materials. 2024,17(5),1108. (IF=3.2, JCR Q2)
• S. Ding, X. Wang, J. Wang, Z. Li, L. Zhang, B. Han. Latest research progress on nano-engineered concrete. Eng. Mater. Struct. 2024,2(4),68-83.
• S. Dong, X. Wang, H. Xu, J. Wang, B. Han. Incorporating super-fine stainless wires to control thermal cracking of concrete structures caused by heat of hydration. Constr. Build. Mater. 2021,271,121896. (IF=8.4, JCR Q1)
• X. Wang, X. Shi, J. Wang, X. Yu, B. Han. Train speed estimation from track structure vibration measurements. Appl. Sci. 2020,10(14),4742. (IF=2.7, JCR Q2)

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