Li Jianqiu | Green Infrastructure | Research Excellence Award

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Prof. Dr. Li Jianqiu | Green Infrastructure | Research Excellence Award

Professor | School of Vehicle and Mobility, Tsinghua University | China

Prof. Dr. Jiangqiu Li is a highly distinguished researcher at Beijing Huairou Laboratory, China, specializing in advanced energy materials, electrochemical systems, and sustainable engineering technologies. With an exceptional record of 407 publications, 24,987 citations, and an h-index of 68, he demonstrates significant global academic influence. His research focuses on fuel cells, perovskite materials, solid oxide systems, and energy-efficient motor technologies. Supported by extensive collaboration with 379 co-authors, his work reflects strong interdisciplinary integration. Li’s contributions advance clean energy innovation, industrial efficiency, and decarbonization, playing a critical role in addressing global energy challenges and supporting the transition toward sustainable and low-carbon technological systems.

Citation Metrics (Scopus)

24987
18000
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6000
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Citations

24,987

Documents

407

h-index

68

Citations

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h-index

View Scopus Profile

Featured Publications


A high-pole-number integral slot hub motor design: Configuration, optimization, and validation

– Proc. IMechE Part D: Journal of Automobile Engineering, 2026

Ran An | Transportation Engineering | Best Scholar Award

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Ms. Ran An | Transportation Engineering | Best Scholar Award

Beijing Jiaotong University | China

Ms. Ran An is a promising researcher and graduate scholar in economics at Beijing Jiaotong University, specializing in transport economics, urban and regional economics, and transport engineering. With strong academic performance and research-oriented training, the candidate has contributed to 3 scholarly publications with a growing research impact reflected by 5 citations across 5 documents and an h-index of 1. Professional experience includes active involvement as a research assistant in transportation accessibility and spatial economic projects, applying advanced econometric and data-driven methodologies, along with teaching support in development economics. The research focus centers on high-speed rail, spatial dynamics, and infrastructure-driven economic development, contributing to policy-relevant insights. The candidate has been recognized with multiple academic scholarships, national-level honors, and competition awards, demonstrating excellence, leadership, and a strong commitment to advancing research in transport and regional economics.

                              Citation Metrics (Scopus)

5

4

3

2

1

0

 

Citations
5
Documents
3
h-index
1

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Documents

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View Scopus Profile

Featured Publications

Ahmed Shah Nisar – Sustainable Construction Techniques – Young Scientist Award

Posted on by Civil Engineering Awards

Ahmed Shah Nisar - Sustainable Construction Techniques - Young Scientist Award

Virginia Tech - United States

AUTHOR PROFILE

ORCID

EARLY ACADEMIC PURSUITS

Ahmed Shah Nisar embarked on his academic journey with a Bachelor of Technology in Civil Engineering from G.C.E.T, Cluster University Srinagar, India, achieving a remarkable GPA of 4.0. Building upon this strong foundation, he pursued a Master of Science in Civil Engineering with a specialization in Transportation Infrastructure & Systems Engineering at Virginia Tech, where he continued to excel academically, maintaining a GPA of 4.0. His early academic achievements laid the groundwork for his future professional endeavors in the field of civil engineering.

PROFESSIONAL ENDEAVORS

As a Graduate Research Assistant at the Virginia Tech Transportation Institute, Nisar is actively involved in research at the Center of Sustainable & Resilient Infrastructure. His work focuses on the structural assessment of roads in the U.S. using Traffic Speed Deflectometer Devices, contributing to the development of sustainable infrastructure solutions. Additionally, his internship experiences with the Roads & Building Department Division-I and Division-II in Srinagar provided him with hands-on experience in bridge construction, concrete testing, structural design analysis, and cost analysis, further enriching his professional skill set.

CONTRIBUTIONS AND RESEARCH FOCUS

Nisar's research and project work reflect a keen focus on sustainable construction techniques, with an emphasis on innovation and environmental responsibility. His projects encompass a range of topics, from traffic flow calibration and urban heat island identification to the study of fly ash bubble deck slabs. Through his research, Nisar actively seeks to enhance the efficiency, resilience, and environmental sustainability of infrastructure systems, contributing to advancements in sustainable construction practices.

IMPACT AND INFLUENCE

Nisar's contributions to sustainable construction techniques have the potential to have a significant impact on the field of civil engineering. By spearheading projects that aim to reduce CO2 emissions, improve structural efficiency, and mitigate environmental impacts, he is shaping the future of infrastructure development. His research findings and project outcomes may influence industry practices, policy decisions, and academic discourse, driving positive change in sustainable construction methodologies.

ACADEMIC CITES

Nisar's research endeavors may garner citations from fellow researchers, scholars, and practitioners in the field of civil engineering. As his work becomes disseminated and integrated into the academic literature, it has the potential to serve as a foundational reference for future research and development in sustainable construction techniques, further solidifying his impact on the academic community.

LEGACY AND FUTURE CONTRIBUTIONS

Ahmed Shah Nisar's dedication to advancing sustainable construction techniques positions him as a leader in the field of civil engineering. His commitment to innovation, environmental stewardship, and academic excellence sets a precedent for future generations of engineers. As he continues to pursue research, contribute to projects, and engage in scholarly discourse, his legacy as a champion of sustainable infrastructure development is sure to endure, leaving a lasting impact on the profession and the planet.

NOTABLE PUBLICATION

Flexural performance of fly ash bubble deck slab 2024

Bo Rang Park – Building environmental – Best Researcher Award

Posted on by Civil Engineering Awards

Bo Rang Park - Building environmental - Best Researcher Award

Chung-Ang University - South Korea

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Bo Rang Park embarked on an academic journey that culminated in expertise in architectural environments, building facilities, and eco-friendly architecture. His commitment to advancing knowledge in these fields is evident in his academic background and research endeavors Building environmental.

PROFESSIONAL ENDEAVORS:

Throughout his career, Bo Rang Park has held significant positions that reflect his dedication to the field. Starting as a Staff member at Archirban Architects Office Co., Ltd in 2008-2009, he progressed to roles such as Researcher at the Korea Institute of Civil Engineering and Building Technology (2014-2016), Senior Researcher at the University of Chung-Ang (2021-2022), Deputy General Manager at DL E&C (2022-2023), and currently as an Academic Research Professor at the University of Chung-Ang from 2023 onwards.

EDUCATION AND LECTURESHIP:

Bo Rang Park has extended his knowledge and skills to the academic realm through lectureships. He has been a Lecturer at the College of Engineering (2021-2022), University of Chung-Ang (2023-present), and is slated to be a Lecturer at the University of Kyung Hee from 2024 to 2025.

RESEARCH PROJECTS:

Bo Rang Park's involvement in a multitude of research projects underscores his commitment to pushing the boundaries of architectural and environmental knowledge. These projects, funded by prestigious entities like the Ministry of Education and the Ministry of Science and ICT, cover diverse areas such as zero-energy buildings, carbon-neutral architecture, transparent solar panels, and intelligent HVAC control platforms Building environmental.

RESEARCH PRESENTATIONS - SCI(E) AND KCI:

Bo Rang Park's research findings have been disseminated through various presentations. Notable contributions include papers published in esteemed journals such as "Energy and Buildings," "Building and Environment," and "Solar Energy." These presentations cover topics ranging from climate-zone-dependent applicability of solar cells to the optimization of energy efficiency in public Building environmental.

IMPACT AND INFLUENCE:

Bo Rang Park's impact extends beyond his immediate roles, as reflected in his position as a Research Director and Senior Researcher in major research projects. His work on developing innovative technologies, control algorithms, and energy-efficient solutions demonstrates a commitment to shaping the future of eco-friendly architecture and sustainable Building environmental practices.

ACADEMIC CITES BUILDING ENVIRONMENTAL:

Bo Rang Park's research has garnered attention and citations in both international (SCI(E)) and Korea Citation Index (KCI) journals. His work on topics like predictive algorithms for cooling systems, DSSC BIPV windows, and intelligent HVAC control has contributed to the academic discourse.

LEGACY AND FUTURE CONTRIBUTIONS:

Bo Rang Park's legacy is marked by a prolific career in academia, research, and practical applications in architecture and environmental engineering. His future contributions are poised to further enhance our understanding of zero-energy buildings, renewable energy, and intelligent building management systems.

NOTABLE PUBLICATION

Accuracy analysis of DNN-based pose-categorization model and activity-decision algorithm.  2020 (6)