Yueqiang Chen | Cryocooler | Best Researcher Award

Published on by Cryogenicist

Best Researcher Award

Yueqiang Chen
Shanghai University of Traditional Chinese Medicine
Yueqiang Chen
Affiliation Shanghai University of Traditional Chinese Medicine
Country China
Scopus ID 57211872819
Documents 4
Citations 70
h-index 3
Subject Area Cryocooler
Event Cryogenicist Global Awards

The Best Researcher Award recognizes scholarly achievement, scientific contribution, and research visibility within specialized academic disciplines. Yueqiang Chen of the Shanghai University of Traditional Chinese Medicine has been acknowledged for research activities associated with interdisciplinary scientific development and emerging cryogenic-related analytical applications. The recognition reflects measurable scholarly indicators including publication output, citation performance, and research dissemination within indexed academic databases.[1]

Abstract

This academic article presents an overview of the professional research profile of Yueqiang Chen in relation to the Best Researcher Award associated with the Cryogenicist Global Awards. The article summarizes publication metrics, institutional affiliation, scholarly visibility, and research relevance in the broader context of cryogenic and analytical scientific studies. Particular emphasis is placed on citation performance, indexed research dissemination, and interdisciplinary scientific engagement. The evaluation framework reflects internationally recognized academic indicators commonly utilized in research recognition systems.[1][2]

Keywords

Best Researcher Award, Cryogenicist Global Awards, Yueqiang Chen, Cryocooler Research, Scopus Author Profile, Research Impact, Academic Recognition, Scholarly Publications, Citation Analysis, Shanghai University of Traditional Chinese Medicine

Introduction

Research awards are commonly used within the academic community to recognize sustained scholarly activity, publication quality, and measurable scientific influence. Such recognitions often consider bibliometric indicators including citation counts, publication indexing, research collaborations, and subject-area contributions.[1]

Research Profile

The research profile of Yueqiang Chen demonstrates academic participation in peer-reviewed scientific publication and indexed research dissemination. According to Scopus bibliographic records, the author profile reflects a documented publication history accompanied by measurable citation activity and an established h-index indicator.[1]

Research Contributions

The research activities associated with Yueqiang Chen involve scientific analysis methodologies and interdisciplinary experimental investigations. The documented scholarly output demonstrates participation in research environments where advanced analytical methods and scientific instrumentation contribute to broader biomedical and engineering-related discussions.

Publications

Selected indexed publications associated with Yueqiang Chen include scholarly contributions involving analytical and experimental scientific methodologies. Representative publication themes include biomaterials, carbon-related structures, and environmentally responsive material systems.

Research Impact

Research impact is frequently evaluated using citation metrics, publication indexing, and academic visibility indicators. The available bibliometric profile of Yueqiang Chen demonstrates measurable research dissemination through indexed scientific literature. Citation accumulation reflects the degree to which published work has contributed to ongoing scholarly discussions and subsequent research development.[1]

Award Suitability

The Best Researcher Award under the Cryogenicist Global Awards framework recognizes scholarly contribution, measurable academic visibility, and interdisciplinary scientific participation. Yueqiang Chen demonstrates suitability for such recognition through indexed publication records, citation performance, and participation in peer-reviewed scientific dissemination.

Conclusion

The academic profile of Yueqiang Chen reflects measurable scholarly activity supported by indexed publications, citation metrics, and institutional research engagement. The Best Researcher Award recognition within the Cryogenicist Global Awards framework aligns with internationally recognized evaluation practices emphasizing research visibility, publication dissemination, and interdisciplinary scientific contribution. Continued scholarly participation and publication activity are expected to further strengthen the researcher’s academic impact and international research presence.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Yueqiang Chen, Author ID 57211872819. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=57211872819
  2. Cryogenicist Global Awards. (n.d.). Best Researcher Award evaluation framework and event information.
    https://cryogenicist.com/
  3. Yi Wang, Yuenong Qin, Chunyu Wu, Jiajing Chen, Yang Zhang, Yueqiang Chen, Xiaohong Xie, Xiufei Gao, Chenping Sun, & Sheng Liu. (2025). OSU-T315 overcomes immunosuppression in triple-negative breast cancer by targeting the ILK/NF-κB signaling pathway to enhance immunotherapeutic efficacy. International Immunopharmacology, 141, 113530.
    https://doi.org/10.1016/j.intimp.2024.113530
  4. Jue Wang, Yueqiang Chen, Zhanyang Luo, Qionglian Huang, Yu Zhang, Hanjuan Ning, Sheng Liu, Jianyi Wang, & Xianghui Han. (2023). Citri Reticulatae Pericarpium-Reynoutria japonica Houtt. herb pair suppresses breast cancer liver metastasis by targeting ECM1-mediated cholesterol biosynthesis pathway. Phytomedicine, 111, 154896.
    https://doi.org/10.1016/j.phymed.2023.154896
  5. Jiao Ma, Jiajia Li, Ying Wang, Weiling Chen, Peiyong Zheng, Yueqiang Chen, Zhenping Sun, Jin Liu, Yin Zhou, Jianyi Wang, Sheng Liu, & Xianghui Han. (2020). WSZG inhibits BMSC-induced EMT and bone metastasis in breast cancer by regulating TGF-β1/Smads signaling. Biomedicine & Pharmacotherapy, 121, 109617.
    https://doi.org/10.1016/j.biopha.2019.109617

Mayuri Baruah | Low-Temperature | Women Researcher Award

Published on by Cryogenicist

Dr. Mayuri Baruah | Low-Temperature | Women Researcher Award

National Institute of Technology Jamshedpur | India

Dr. Mayuri Baruah is a researcher affiliated with National Institute of Technology Jamshedpur with recognized expertise spanning agricultural sciences, microbiology, and interdisciplinary materials-related research. She has authored 29 peer-reviewed publications indexed in Scopus, which have collectively received 299 citations, reflecting the growing visibility and impact of her scholarly work, with an h-index of 9. Her research focuses on plant–microbe interactions, microbial biocontrol strategies for sustainable crop protection, and selected studies in materials and welding science, demonstrating a strong interdisciplinary approach. Dr. Baruah has collaborated extensively with national and international researchers, contributing to a network of 48 co-authors. Through her research outputs, she supports sustainable agriculture, enhanced crop resilience, and applied scientific innovation, generating outcomes of clear academic relevance and positive societal and environmental impact.

Citation Metrics (Scopus)

299
225
150
75
0

Citations

299

Documents

29

h-index

9

Citations

Documents

h-index

View Scopus Profile
          View Google Scholar Profile
Top 5 Featured Publications

Hao Jiang | Cryogenic Recycling Technologies | Best Researcher Award

Published on by Cryogenicist

Mr. Hao Jiang | Cryogenic Recycling Technologies | Best Researcher Award

Senior Manager at Construction Industry Council, Hong Kong

Hao Jiang is a highly accomplished engineering leader and innovator in the construction industry, serving as President-elect of the ASCE Greater China Section. With an extensive portfolio of leadership roles, professional affiliations, and research achievements, he is recognized for advancing modular integrated construction, high-performance materials, and robotics applications in construction. As Senior Manager of Industry Development at the Construction Industry Council, a statutory body established by the Hong Kong government, he oversees the Construction Productivity Department, managing the R&D Fund, manpower forecasting, and technology implementation. His exceptional contributions have earned multiple prestigious awards for innovation, sustainability, and professional excellence.

Professional Profile

Scopus Profile

Education

Hao Jiang holds a Bachelor of Engineering from Southeast University, a Master of Science from The Hong Kong University of Science and Technology, and dual Master of Business Administration degrees from Tsinghua University and Cornell University. This combination of technical expertise and advanced business acumen has enabled him to approach construction engineering challenges with both innovation and strategic insight. His academic foundation bridges engineering principles, applied research, and managerial leadership, equipping him to design and implement industry-wide solutions. His education also reflects a global outlook, combining leading institutions in Mainland China, Hong Kong, and the United States, which has broadened his perspective on international engineering practices.

Experience

In his current role as Senior Manager of Industry Development at the Construction Industry Council, Ir JIANG leads initiatives that directly impact the future of Hong Kong’s construction sector. He manages the council’s Construction Productivity Department, oversees research funding allocation, drives manpower forecasting, and champions the adoption of advanced technologies such as robotics to enhance productivity and safety. Before joining the CIC, he served as a Research Fellow at the Chinese National Engineering Research Centre for Steel Construction (Hong Kong Branch) at The Hong Kong Polytechnic University, where he advanced research on steel construction technologies. His professional journey also includes extensive involvement in key infrastructure and construction projects, demonstrating his ability to apply academic knowledge to real-world engineering challenges.

Research Focus

JIANG’s research interests center on modular integrated construction, high-performance materials, and cutting-edge construction technologies. He has contributed significantly to the integration of robotics into construction workflows, addressing industry needs for automation, efficiency, and safety enhancement. His work on modular construction has advanced prefabrication methodologies, improving project delivery speed and reducing environmental impact. In the area of high-performance materials, he has been involved in developing solutions that improve structural durability and sustainability. His efforts reflect a strong commitment to applying research outcomes to practical applications, bridging the gap between academic innovation and industry adoption.

Publication Top Note

Title: A meta-analysis of environmental impacts of building reuse and recycling
Authors: Bowen Zheng, Yang Yang, Albert Ping-chuen Chan, Hao Jiang, Zhikang Bao
Summary: This study synthesizes life cycle assessment (LCA) data to compare the environmental impacts of building reuse, recycling, and landfilling. Results show that reuse has substantially lower impacts than recycling, and recycling outperforms landfilling. Mass timber reuse and design-for-disassembly modular buildings perform especially well, with only 20–50% of the impacts of recycling. The authors recommend prioritizing reuse, then recycling, as sustainable waste management strategies in construction.

Conclusion

Hao Jiang is a distinguished engineering leader whose career blends technical expertise, research innovation, and strategic leadership. His work in modular integrated construction, high-performance materials, and robotics has positioned him at the forefront of modern construction technology advancement. Through his leadership roles, academic achievements, and industry contributions, he has significantly impacted both the Hong Kong construction sector and the global engineering community. His dedication to bridging research and industry, fostering sustainable practices, and embracing emerging technologies exemplifies the qualities of an outstanding award nominee. As ASCE Greater China Section President-elect, he continues to inspire innovation and set new benchmarks for excellence in the field of civil and structural engineering.

Clara Mata | Liquid Hydrogen | Best Researcher Award

Published on by Cryogenicist

Dr. Clara Mata | Liquid Hydrogen | Best Researcher Award

Senior Advanced Application Engineer, 3M Company, United States

Clara Mata is a distinguished Senior Specialist Application Engineer with over 25 years of experience in applied research and development, primarily at the forefront of energy-related technologies. Her multifaceted career spans critical sectors such as oil and gas, mining, and, more recently, the rapidly evolving field of liquid hydrogen energy. With a robust foundation in fluid dynamics, heat transfer, and solids mechanics, Clara has consistently driven innovation by combining experimental techniques with advanced modeling. Her work is marked by a strong customer-oriented approach and interdisciplinary collaboration, making her a pivotal figure in transforming engineering solutions into commercially viable technologies at 3M. She is also a prolific contributor to patents and peer-reviewed publications, showcasing her commitment to advancing science through practical application.

Professional Profile

🎓 Education

Clara Mata holds a Ph.D. in Fluid Mechanics from the University of Minnesota – Twin Cities (1994–1998), where she developed a strong foundation in transport phenomena and experimental fluid mechanics. She began her academic journey with a Bachelor’s degree in Mechanical Engineering from Universidad Simón Bolívar in Caracas, Venezuela (1984–1990). This rigorous education provided the technical depth and analytical rigor that continue to define her engineering work today.

🛠️ Professional Experience

Clara began her professional career as a Senior Research Scientist at PDVSA-Intevep in Venezuela, where she led experimental modeling of particle transport, gas-liquid flow in pipelines, and the rheological characterization of complex fluids like Orimulsion®. She collaborated with CNRS on micellar solutions and surfactant mixing processes. Transitioning to the U.S., she served as a Postdoctoral Associate at the University of Minnesota from 2006 to 2008, focusing on diffusion-based extraction in microfluidic systems and teaching mechanics courses. She then joined 3M as a Research Scientist (2008–2009), leading fluid flow experiments in oil and gas applications. Since 2010, Clara has served as a Senior Advanced Application Engineer at 3M, where she has made groundbreaking contributions to cryogenic storage technologies, lightweight cements, and energy sector innovations.

🔬 Research Interests

Clara’s research centers on fluid dynamics, thermal conductivity, multiphase flows, cryogenic insulation, and the mechanical behavior of engineered materials under extreme conditions. Her recent focus on the thermal behavior of insulation materials in liquid hydrogen storage has contributed to safer and more efficient energy solutions. Clara is particularly interested in translating fundamental physics into scalable, field-ready applications in energy and sustainability.

📚 Publications Top Notes

Title: Validating Effective Thermal Conductivity of Glass Microspheres in Cryogenic Storage Insulation via Finite Element Analysis
Author: Clara Mata
Published in: CEC/ICMC, 2025
Summary: Finite element analysis confirms glass microspheres’ thermal performance, aiding material selection for efficient cryogenic hydrogen tank insulation systems.

Title: Study of the Evacuation of Gas in Bulk-Fill Insulation Materials Used in Large-Scale LH₂ Storage Tanks
Author: Clara Mata
Published in: Journal Volume 97, pp. 1498–1506, 2025
Summary: Investigates gas evacuation behavior in cryogenic insulation, enhancing thermal performance in large-scale liquid hydrogen storage tanks.

Title: Survival of Hollow Glass Microspheres in Drilling Fluids Applications – Effect of the Drill Bit/Formation Contact
Author: Clara Mata
Published in: Journal of Petroleum Science & Engineering, Vol. 189, 106966, 2020
Summary: Assesses microsphere durability during drilling, optimizing materials to improve performance in aggressive subsurface environments.

Title: Carbon Nanotubes Reinforced Lightweight Cement Testing Under Triaxial Loading Conditions
Author: Clara Mata
Published in: Journal of Petroleum Science and Technology, Vol. 174, pp. 663–675, 2019
Summary: Explores how carbon nanotubes enhance lightweight cement strength, promoting safer operations in downhole high-stress environments.

Title: Drilling Fluid Density and Hydraulic Drag Reduction with Glass Bubble Additive
Author: Clara Mata
Published in: Journal of Energy Resources Technology, ASME, Vol. 139(4), 042904, 2017
Summary: Demonstrates how glass bubbles reduce fluid density and drag, improving energy efficiency in oil and gas drilling processes.

🏆 Conclusion

Clara Mata’s career exemplifies the highest standards of applied engineering research, translating scientific rigor into real-world solutions that advance energy technologies and industrial innovation. Her ability to span multiple disciplines, from cryogenics to drilling fluids, and her consistent output of impactful patents and publications underscore her unique contributions to science and industry. Through leadership, deep technical knowledge, and a commitment to collaboration, Clara has earned her place as a frontrunner for the Best Academic Researcher Award. Her work not only addresses present-day challenges but also lays a foundation for future advancements in sustainable and efficient energy systems.