Dong Lu | Construction Engineering | Young Scientist Award

Dr. Dong Lu | Construction Engineering | Young Scientist Award

Doctorate at The Hong Kong Polytechnic University, Hong Kong

Dr. Dong Lu is a distinguished researcher in the field of smart pavement and low-carbon, sustainable building materials. He holds an M.S. degree from Chang’an University and a Ph.D. from Harbin Institute of Technology, with a second Ph.D. currently in progress at the Hong Kong Polytechnic University. Dr. Lu has authored over 60 SCI-indexed publications, including five highly cited papers, accumulating over 1,200 citations and an H-index of 23. His groundbreaking work includes the development of microwave heating self-healing technology for asphalt pavement, significantly advancing road maintenance and monitoring. In addition to his academic achievements, Dr. Lu has been involved in multiple high-impact research projects and holds 10 granted patents out of 17 applications, demonstrating his commitment to innovation in sustainable construction technologies.

Publication Profile

Google ScholarĀ 

šŸŽ“ Academic and Training Background

Dr. Dong Lu has a solid academic foundation in civil engineering and materials science. He earned his M.S. degree from Chang’an University, where he developed a strong interest in sustainable infrastructure. He then pursued a Ph.D. at Harbin Institute of Technology, focusing on advanced construction materials and smart pavements. Currently, Dr. Lu is working towards a second Ph.D. at the Hong Kong Polytechnic University, further specializing in low-carbon, sustainable building materials and structures. His academic journey has equipped him with a deep understanding of both theoretical and practical aspects of modern civil engineering challenges.

šŸ’¼ Work Experience

Dr. Dong Lu has an impressive work experience that blends academic research with industry collaboration. He has been extensively involved in research on smart pavement and sustainable building materials, contributing significantly to the field through his innovative work on microwave heating self-healing technology for asphalt pavements. Dr. Lu has led and participated in numerous high-profile research projects, including those funded by the State Key Laboratory of Mountain Bridge and Tunnel Engineering and the Research Grant Council of Hong Kong. His experience also includes consultancy roles, where he has collaborated with enterprises such as Suzhou Solid Tough Nanomaterials Technology Co., Ltd., focusing on the development of nano-carbon multifunctional coating materials. Dr. Lu’s work has had a tangible impact on key infrastructure projects, including the Hong Kong Hung Hom Road Overhaul and Greater Bay Area Road Maintenance, showcasing his ability to apply cutting-edge research to real-world engineering challenges.

šŸ† Strengths for the Award

Dr. Dong Lu’s strengths for the Research for Young Scientist Award are rooted in his innovative contributions to civil engineering and materials science. He has pioneered research on smart pavements and low-carbon, sustainable building materials, notably developing microwave heating self-healing technology for asphalt pavements, which has practical applications in road maintenance. His prolific publication record, with over 60 SCI-indexed papers, including several highly cited works, underscores his influence and impact in the scientific community. Additionally, Dr. Luā€™s strong integration of academic research with industry needs is demonstrated through his successful collaborations on product development projects and his impressive portfolio of 17 patents, of which 10 have been granted. His leadership in high-impact research projects, funded by prestigious organizations like the Research Grant Council of Hong Kong, further highlights his ability to manage and deliver on complex initiatives. With over 1,200 citations and an H-index of 23, Dr. Lu’s work is globally recognized, making him a deserving candidate for this award.

šŸ” Areas for Improvement

Dr. Dong Lu has demonstrated exceptional expertise and accomplishments in his field, there are areas where further development could enhance his already impressive profile. Diversifying his research portfolio to include interdisciplinary collaborations beyond civil engineering and materials science could broaden the impact of his work. Additionally, expanding his mentorship of young researchers and involvement in international research networks may help to further establish his influence and leadership on a global scale. Finally, while his publication record is strong, increasing engagement with the broader scientific community through keynote speeches, workshops, and participation in global conferences could enhance his visibility and contribute to the dissemination of his research findings.

Publications:

  • Understanding the role of unzipped carbon nanotubes in cement pastes
    • Journal: Cement and Concrete Composites
    • Year: 2022
    • Cited by: 73
    • Volume: 126, Article ID: 104366
  • Carbon nanotube polymer nanocomposites coated aggregate enabled highly conductive concrete for structural health monitoring
    • Journal: Carbon
    • Year: 2023
    • Cited by: 55
    • Volume: 206, Pages: 340-350
  • Carbon-based nanomaterials engineered cement composites: a review
    • Journal: Journal of Infrastructure Preservation and Resilience
    • Year: 2022
    • Cited by: 51
    • Volume: 3(1), Article ID: 2
  • Interfacial bonding between graphene oxide coated carbon nanotube fiber and cement paste matrix
    • Journal: Cement and Concrete Composites
    • Year: 2022
    • Cited by: 50
    • Volume: 134, Article ID: 104802
  • Highly conductive and sensitive piezoresistive cement mortar with graphene coated aggregates and carbon fiber
    • Journal: Cement and Concrete Composites
    • Year: 2022
    • Cited by: 48
    • Volume: 134, Article ID: 104731
  • Influence of ternary blended cementitious fillers in a cold mix asphalt mixture
    • Journal: Journal of Cleaner Production
    • Year: 2021
    • Cited by: 47
    • Volume: 318, Article ID: 128421
  • Growing nanocrystalline graphene on aggregates for conductive and strong smart cement composites
    • Journal: ACS Nano
    • Year: 2023
    • Cited by: 45
    • Volume: 17(4), Pages: 3587-3597
  • Interfacial nano-engineering by graphene oxide to enable better utilization of silica fume in cementitious composite
    • Journal: Journal of Cleaner Production
    • Year: 2022
    • Cited by: 45
    • Volume: 354, Article ID: 131381
  • Nano-engineering the interfacial transition zone in cement composites with graphene oxide
    • Journal: Construction and Building Materials
    • Year: 2022
    • Cited by: 39
    • Volume: 356, Article ID: 129284
  • Graphene coated sand for smart cement composites
    • Journal: Construction and Building Materials
    • Year: 2022
    • Cited by: 37
    • Volume: 346, Article ID: 128313

šŸ… Conclusion

Dr. Dong Luā€™s extensive research contributions, innovative solutions, and strong academic and industry connections make him a highly deserving candidate for the Research for Young Scientist Award. His work not only pushes the boundaries of knowledge in smart and sustainable construction materials but also has significant real-world applications, making him a valuable asset to both academia and industry.

Linmei Wu | civil engineering | Best Researcher Award

Ā Prof Dr. Linmei Wu | civil engineering | Women Researcher Award

Prof Dr at University of western australia China

Dr. Linmei Wu is a distinguished civil engineer at The University of Western Australia, recognized for her pioneering work in structural engineering and sustainable construction. With over 30 high-quality publications, Dr. Wu’s research focuses on advancements in civil engineering materials, concrete shrinkage, BIM design, and intelligent construction methods. Her work bridges traditional and modern engineering practices, driving innovation and sustainability in the field. With a citation index of 2189 and a commitment to impactful research, Dr. Wu is a strong candidate for the Research for Community Impact Award, reflecting her dedication to advancing both academic and practical aspects of civil engineering.

Profile

Scholar

Strengths for the Research for Community Impact Award šŸŒŸ

Innovative Research: Linmei Wu has made significant advancements in civil engineering materials and intelligent construction methods, addressing key challenges in the field.. High Citation Index: Her high citation index of 2189 reflects the impact and relevance of her research within the academic community. Commitment to Sustainability: Her focus on sustainable and innovative solutions aligns with the goals of the Research for Community Impact Award.

Areas for Improvement šŸ› ļø

Expand Industry Collaborations: Enhancing collaborations with industry partners could amplify the practical applications and community impact of her research. Increase Public Outreach: Greater engagement in public outreach and communication of her research findings could further extend the societal benefits of her work.

Academic and Professional Background šŸŽ“

I am an accomplished civil engineer specializing in structural engineering. With a robust foundation in civil and environmental engineering, I have published over 30 high-quality academic papers. My focus on innovative and sustainable solutions in structural engineering has led to significant advancements in the field. My commitment to research and development has driven me to the forefront of civil and structural engineering, where I continually strive to improve practices and technologies.

Contributions šŸ†

Linmei Wuā€™s contributions to civil engineering are distinguished by her groundbreaking work in concrete shrinkage, BIM design, and intelligent construction methods. Her innovative approaches bridge traditional engineering with modern techniques, leading to sustainable and impactful advancements. Her extensive publication record and high citation index underscore her significant influence in the field. Linmeiā€™s dedication to advancing civil and structural engineering practices demonstrates her commitment to enhancing the industryā€™s impact on both the environment and society.

Research and Innovations šŸ”¬

I have achieved breakthrough advancements in civil engineering materials, particularly regarding concrete shrinkage, Building Information Modeling (BIM) design, and intelligent construction methods. My expertise integrates traditional civil engineering with modern design approaches, resulting in innovative and sustainable solutions.

 

Publication:šŸ“
  1. High Stretchable and Self-Adhesive Multifunctional Hydrogel for Wearable and Flexible Sensors
    • Year: 2024
    • Authors: H Zhong, W Shan, L Liang, X Jiang, L Wu
    • Journal: Heliyon
    • Citations: 0

 

  1. Realistic Aggregate Based on Rough Textures with Deep Learning
    • Year: 2024
    • Authors: L Wu, P Liu
    • Journal: Applied Soft Computing
    • Article: 111938
    • Citations: 0

 

  1. Cover Image, Volume 141, Issue 26
    • Year: 2024
    • Authors: W Shan, L Liang, L Wu
    • Journal: Journal of Applied Polymer Science
    • Volume: 141
    • Issue: 26
    • Article: e54165
    • Citations: 0

 

  1. 4D Printing of Dual-Responsive High-Performance Shape Memory Polymer Inspired by Sunflowers
    • Year: 2024
    • Authors: W Shan, L Liang, L Wu
    • Journal: Journal of Applied Polymer Science
    • Volume: 141
    • Issue: 26
    • Article: e55557
    • Citations: 0

 

  1. Multi-Material and Parameter-Controllable Stereolithography 3D Printing of Graded Permittivity Composites for High Voltage Insulators
    • Year: 2023
    • Authors: L Zhong, J Du, Y Xi, F Wang, L Wu, J Li, M Tu, X Li, G Fei
    • Journal: Virtual and Physical Prototyping
    • Volume: 18
    • Issue: 1
    • Article: e2271447
    • Citations: 1

 

  1. 3D Printing of Photochromic and Thermochromic Shape Memory Polymers for Multi-Functional Applications
    • Year: 2023
    • Authors: N Ge, W Shan, L Liang, Y Deng, L Wu
    • Journal: Materials Research Express
    • Volume: 10
    • Issue: 9
    • Article: 095701
    • Citations: 1

 

  1. Shear Lag Effect Study of a Composite Girder Cable-Stayed Bridge During Construction
    • Year: 2022
    • Authors: QC She, CS Chen, DH Yan, LM Wu, G Huang
    • Journal: International Journal of Simulation Modelling (IJSIMM)
    • Volume: 21
    • Issue: 4
    • Citations: 3

 

  1. Behaviour of Steel-Reinforced Concrete Columns Under Combined Torsion Based on ABAQUS FEA
    • Year: 2020
    • Authors: X Cao, L Wu, Z Li
    • Journal: Engineering Structures
    • Volume: 209
    • Article: 109980
    • Citations: 52

 

  1. Study on Dimensional Stability of Ultra-High Performance Concrete (UHPC)
    • Year: 2020
    • Author: L Wu
    • University: University of Southern Queensland
    • Citations: 0

 

  1. Synthesis of Zeolite P1 from Fly Ash Under Solvent-Free Conditions for Ammonium Removal from Water
    • Year: 2018
    • Authors: Y Liu, C Yan, J Zhao, Z Zhang, H Wang, S Zhou, L Wu
    • Journal: Journal of Cleaner Production
    • Volume: 202
    • Pages: 11-22
    • Citations: 152

 

  1. 钢ēŗ¤ē»“åÆ¹č¶…é«˜ę€§čƒ½ę··å‡åœŸå¹²ē‡„ꔶē¼©ēš„影响 (Effect of Steel Fiber on the Drying Shrinkage of Ultra-High Performance Concrete)
    • Year: 2018
    • Authors: å“ęž—å¦¹ (Wu Linmei), å²ę‰å†› (Shi Caijun), å¼ ē„–华 (Zhang Zuhua), ēŽ‹ęµ© (Wang Hao)
    • Journal: ꝐꖙåÆ¼ęŠ„ (Materials Review)
    • Volume: 31
    • Issue: 23
    • Pages: 58-65
    • Citations: 6

Conclusion šŸ†

Linmei Wu is a highly qualified candidate for the Research for Community Impact Award. Her extensive research contributions, innovative approaches, and significant citation index highlight her impactful work in civil engineering. With a strong commitment to sustainable solutions, she is well-positioned to advance the field and make meaningful contributions to both the industry and society.