Yongwu Peng – Energy and Environmental Engineering – Best Researcher Award

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Yongwu Peng - Energy and Environmental Engineering - Best Researcher Award

Zhejiang University of Technology - China

AUTHOR PROFILE

Scopus
Google Scholar

EARLY ACADEMIC PURSUITS

Dr. Yongwu Peng embarked on his academic journey with a PhD from Shanghai JiaoTong University in 2013, under the guidance of Prof. Yong Cui. This foundational period laid the groundwork for his subsequent research endeavors in Energy and Environmental Engineering.

PROFESSIONAL ENDEAVORS

In September 2019, Dr. Peng transitioned to an independent career as a Full Professor at the College of Materials Science and Engineering at Zhejiang University of Technology (ZJUT). His professional trajectory underscores a commitment to advancing knowledge in the field of porous crystalline materials and their hybrid counterparts, particularly focusing on energy- and environmental-related applications.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Peng's research focuses on designing and synthesizing porous crystalline materials, including covalent organic frameworks and their hybrid materials, for applications in catalysis, separation, smart devices, and energy- and environmental-related fields. His work has contributed significantly to advancing knowledge in these areas, as evidenced by his extensive publication record.

IMPACT AND INFLUENCE

With over 60 articles published in prestigious journals and citations exceeding 6100, Dr. Peng's research has made a substantial impact on the scientific community. His insights into structural design, synthesis methods, and applications of porous materials have garnered recognition and acclaim from peers and experts in the field.

ACADEMIC CITES

Dr. Peng's publications in renowned journals such as Nature Communications, Journal of the American Chemical Society, and Angewandte Chemie reflect the depth and significance of his contributions to Energy and Environmental Engineering. His work has been cited extensively, underscoring its relevance and influence in the scientific community.

LEGACY AND FUTURE CONTRIBUTIONS

As a recipient of prestigious awards and recognition, including the Qianjiang Talent Program and the Yunhe Scholar award, Dr. Peng's legacy is marked by excellence and innovation in materials science and engineering. His future contributions are poised to further advance the frontiers of Energy and Environmental Engineering, driving impactful solutions to pressing global challenge.

NOTABLE PUBLICATION

Insights into sensing applications of fluorescent covalent organic frameworks 2024

Multifunctional coatings of graphene oxide: New membranes for proton permeation and salt rejection 2024

Transparent, Self-Healing, and Defogging Wearable Devices Enabled by Plasmonic Silver Nanoparticle-Embedded Covalent–Organic Framework Nanosheets 2024 (1)

Revolutionizing the structural design and determination of covalent–organic frameworks: principles, methods, and techniques 2023 (2)

Song Mengjie – Environmental Energy – Outstanding Scientist Award

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Song Mengjie - Environmental Energy - Outstanding Scientist Award

Beijing Institute of Technology - China

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS:

Professor Song Mengjie's academic journey is marked by excellence and international exposure. He earned his Ph.D. in Building Services Engineering from The Hong Kong Polytechnic University with a full scholarship, showcasing early dedication to research and academic excellence. This was preceded by a master's degree from Harbin Institute of Technology and a bachelor's degree from Hunan University, both in the field of building thermal energy engineering.

PROFESSIONAL ENDEAVORS:

Prof. Song's professional journey demonstrates a diverse and impactful career. He has held significant roles such as President Assistant at Beijing Energy Research Institute and Beijing District Heating Group Co., Ltd. His experience extends globally, having served as a DECRA Researcher at the University of Wollongong in Australia and as a JSPS Research Fellow at the University of Tokyo in Japan. These roles not only showcase his expertise but also highlight his ability to contribute to various domains.

CONTRIBUTIONS AND RESEARCH FOCUS :

Prof. Song's contributions to the field are evident through his research interests, focusing on solidification of droplets, icing technologies, two-phase cooling systems, and environmental construction technology. His leadership as the Head of the Complex Phase Change Thermal Fluid Lab (Frost Lab) at Beijing Institute of Technology further underscores his commitment to advancing knowledge in these areas.

IMPACT AND INFLUENCE ON Environmental Energy:

With an impressive record of Google Scholar citations (5255), an h-index of 40, and an i10-index of 112, Prof. Song's impact on the scientific community is substantial. His work in areas like pumping two-phase cooling systems and frost-related technologies has likely influenced advancements in thermal engineering and fluid dynamics.

ACADEMIC CITES:

Prof. Song's research has been widely cited, as reflected in his substantial Google Scholar citation count. This suggests that his work has been instrumental in shaping the discourse within his field, indicating a high level of recognition and influence.

LEGACY AND FUTURE CONTRIBUTIONS:

As a Professor and Teli Young Scholar at the Department of Energy and Power Engineering, Beijing Institute of Technology, Prof. Song is positioned to leave a lasting legacy. His multidisciplinary expertise, international collaborations, and leadership roles suggest a future of continued contributions to research, education, and the global scientific community. Prof. Song's legacy is likely to include advancements in thermal engineering and environmental technologies.

NOTABLE PUBLICATION

Experimental study of relative humidity effect on the edge effect of frosting characteristics on a vertical cold plate surface.  2024 (1)