Dr. Liang Luo | Harbin Institute of Technology | China
Luo Liang (็ฝไบฎ) is a dedicated researcher in nano-biotechnology ๐งฌ, intelligent construction ๐๏ธ, and bridge engineering ๐. Born in July 1996 in Ji’an, Jiangxi Province, China ๐จ๐ณ, he is a Ph.D. candidate at Harbin Institute of Technology ๐, specializing in artificial intelligence-driven smart infrastructure maintenance and nano-material applications for structural sustainability. He has contributed to national research projects integrating nano-biotechnology, self-healing materials, and AI-driven maintenance for bridges and urban infrastructure. With over 10 SCI-indexed publications ๐ in leading engineering and material science journals, he actively explores nano-engineered concrete, self-repairing bridge materials, and intelligent maintenance decision-making ๐ค. Luo has also worked in the construction industry and assisted with national-level research and award applications.
Professional Profile:
Google Scholar
Suitability for Best Researcher Awardย
Luo Liang demonstrates strong research potential in nano-biotechnology, intelligent construction, and bridge engineering. His interdisciplinary expertise, particularly in AI-driven smart infrastructure maintenance and nano-material applications, positions him as a valuable contributor to modern engineering challenges. His research aligns with the global push for sustainable and intelligent infrastructure solutions.
Education & Experience ๐๐จโ๐ฌ
๐น Ph.D. in Civil Engineering (2021-2025) โ Harbin Institute of Technology ๐๏ธ (Focus: Nano-biotechnology in Smart Materials)
๐น M.Sc. in Architecture & Civil Engineering (2018-2021) โ South China University of Technology ๐๏ธ (Focus: High-performance Structural Nodes)
๐น B.Sc. in Civil Engineering (2014-2018) โ East China Jiaotong University ๐ (Focus: Advanced Materials in Construction)
๐ธ National Key R&D Program (2022-2025) โ Artificial intelligence-driven nano-enhanced bridge maintenance ๐ ๏ธ๐ฌ
๐ธ National Natural Science Foundation Project (2017-2021) โ Self-healing high-performance structural nodes using nano-materials ๐ข
๐ธ China Resources Land (Guangzhou) Co., Ltd. (2019-2021) โ Project design & planning with nano-coatings for buildings ๐
๐ธ Ph.D. Advisor Assistance (2021-Present) โ Nano-material applications in bridge sustainability and repair ๐
Professional Development ๐๐
Luo Liang is at the forefront of nano-biotechnology applications in civil engineering ๐ฌ. His research focuses on nano-engineered self-healing materials ๐๏ธ, biocompatible coatings for bridges ๐, and intelligent infrastructure monitoring ๐ก. By integrating nano-sensors, AI-driven predictive analytics ๐ค, and biomimetic materials, he develops high-performance, sustainable structures. His work includes nano-reinforced concrete ๐ข for crack resistance, self-repairing polymer composites, and biodegradable construction materials ๐ฑ. Actively publishing in top-tier SCI journals, he also contributes to national research projects and industrial collaborations ๐. Passionate about nano-biotech innovations, he strives to enhance the future of smart, self-sustaining infrastructure ๐.
Research Focus ๐ฌ๐๏ธ
Luo Liang specializes in nano-biotechnology and artificial intelligence-driven smart infrastructure ๐ค. His work integrates nanomaterials, biological self-healing technologies, and big data analytics ๐ to develop autonomous maintenance systems ๐๏ธ. Key research areas include:
๐น Nano-enhanced bridge coatings for corrosion resistance โ๏ธ
๐น Bio-inspired self-repairing concrete for crack healing ๐ข
๐น Nano-sensor networks for real-time bridge health monitoring ๐
๐น AI-driven material optimization for sustainability assessments ๐ฑ
๐น Ultra-high-performance nano-concrete (UHPC) with biodegradable reinforcements ๐งฌ
๐น 3D printing of nanostructured materials for construction automation ๐ฅ๏ธ
His goal is to create intelligent, self-sustaining, and durable infrastructure ๐ using nano-biotechnology innovations.
Awards & Honors ๐
โจ
๐ National Ph.D. Scholarship & Inspirational Scholarship ๐
๐
Outstanding Student & Excellent Student Leader ๐ซ
๐
Outstanding Graduate & Excellent Communist Party Member ๐
๐๏ธ Second Prize โ National University Bridge Design Competition ๐ฅ
๐๏ธ Excellent Performance in Research & Academic Contributions ๐
Publication Top Notes:
๐ Stressing state analysis of multi-span continuous steel-concrete composite box girder โ H Xiao, L Luo, J Shi, H Jiang, Z Wu | Engineering Structures | ๐ Cited by: 24
๐ Experimental evaluation of mechanical properties and microstructure for recycled aggregate concrete collaboratively modified with nano-silica and mixed fibers โ H Sun, L Luo, H Yuan, X Li | Construction and Building Materials | ๐ Cited by: 19
๐ฉ Parametric analysis and stiffness investigation of extended end-plate connection โ L Luo, M Du, J Yuan, J Shi, S Yu, Y Zhang | Materials |ย ๐ Cited by: 18
๐งฑ Experimental study on flexural performance of ultra-high-performance concrete with recycled aggregate co-modified by nano-silica and steel fiber โ L Luo, J Shi, J Wang, Y Qu, B Dai | Construction and Building Materialsย | ๐ Cited by: 14
โก Seismic behavior of extended end-plate connections subjected to cyclic loading on the top-side of the column โ L Luo, J Qin, D Zhao, Z Wu | Materialsย | ๐ Cited by: 13