Bing Bai | Advanced Materials Award | Best Researcher Award

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Prof Dr. Bing Bai | Advanced Materials Award | Best Researcher Award

Prof Dr. Bing Bai, Beijing jiaotong University, China

Prof. Dr. Bing Bai, born October 1966, is a distinguished male professor and doctoral supervisor at Beijing Jiaotong University, China 🇨🇳. With over 180 papers in international journals and 10 academic books, he’s a prominent figure in geotechnical engineering. Honored with the Beijing Natural Science Award and the Ministry of Education’s Natural Science Prize, his research is internationally acclaimed. Named among the “World’s Top 2% Scientists” by Stanford University for three years, he also received the prestigious “Scott Sloan Award” from the Royal Academy of Sciences. Serving on editorial boards and professional committees, he’s a leading authority in his field.

 

Publication Profile

Scopus

Education and Experience 🎓

Prof. Dr. Bai Bing, born in October 1966, is a distinguished professor and doctoral supervisor at Beijing Jiaotong University, China. With an illustrious academic journey, he has authored over 180 papers in esteemed international journals and edited 10 academic monographs and textbooks.

Academic Achievements 🏆

His groundbreaking research has earned him prestigious accolades including the Beijing Natural Science Award and the Natural Science Prize from the Ministry of Education of China. He’s been consistently recognized among the “World’s Top 2% Scientists” by Stanford University. Notably, he clinched the esteemed “Scott Sloan Award for best paper in 2021” from the Royal Academy of Sciences.

Research Focus 📚

Prof. Dr. Bing Bai’s extensive research spans across diverse domains within geotechnical and environmental engineering. His work delves into the constitutive behavior of geomaterials, including the thermo-mechanical properties of soils and sediments. He investigates the transport phenomena of contaminants and suspended particles in porous media, exploring their interaction with factors like temperature, pore structure, and hydrodynamic forces. Additionally, he’s contributed significantly to understanding consolidation processes induced by thermal loading and cyclic loading. Prof. Bai’s interdisciplinary research sheds light on critical aspects of geoenvironmental problems, offering valuable insights for sustainable underground construction and environmental management.

 

Publication Top Notes

 

Cheng-FeiCao | Functional Composite Materials | Best Researcher Award

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Dr. Cheng-FeiCao | Functional Composite Materials | Best Researcher Award

Dr. Cheng-FeiCao, University of Southern Queensland, Australia

🎓 Cheng-Fei Cao, a research fellow at USQ’s Centre for Future Materials, earned his PhD in Materials Engineering in Jan. 2024 under Prof. Hao Wang’s mentorship. Specializing in functional polymeric nanocomposites, bio-inspired film materials, and flame-retardant coatings, he’s a prolific author with 25 publications in top-tier journals like ACS Nano. With 1,600+ citations and an H-index of 17, his research on smart fire alarm sensors has made a significant impact. 📚🔬

Publication Profile:

Scopus

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Google Scholar

Education:

Cheng-Fei Cao earned his PhD in Materials Engineering from the University of Southern Queensland (USQ) in January 2024. His doctoral research focused on functional polymeric nanocomposites, bio-inspired film materials, multifunctional flame-retardant coatings, and smart fire alarm sensors.

Experience:

Currently, Cheng-Fei Cao serves as a research fellow at the Centre for Future Materials, USQ, Australia. Under the guidance of Prof. Hao Wang, Editor-in-Chief of Composites Part B: Engineering, he conducts research in advanced materials science, particularly in the aforementioned areas of expertise.

Academic Achievements:

Throughout his academic journey, Cheng-Fei Cao has co-authored 25 peer-reviewed publications in esteemed international journals like ACS Nano, Adv. Funct. Mater., and Adv. Sci. His research has garnered significant attention, accumulating over 1,600 citations and boasting an H-index of 17 according to Google Scholar. These achievements underscore his contributions to the advancement of materials engineering and his standing within the academic community.

Research Focus:

Cheng-Fei Cao’s research focus lies in the development of innovative materials for fire detection and prevention. 🧯 His work primarily revolves around creating efficient flame detection and early warning sensors using advanced coatings and nanomaterials. Through his studies, he explores the design and fabrication of flame-retardant materials with enhanced functionalities, such as temperature responsiveness and mechanical flexibility. Cao’s contributions extend to bio-inspired approaches for sustainable fire protection and warning systems. With a keen interest in functional polymeric nanocomposites and smart sensor technology, he endeavors to advance fire safety measures with cutting-edge solutions. 🔥🔬

Publication Top Notes:

  1. Efficient flame detection and early warning sensors on combustible materials using hierarchical graphene oxide/silicone coatings 📝 Published in ACS nano in 2018, cited 231 times.
  2. Facile and green fabrication of flame-retardant Ti3C2Tx MXene networks for ultrafast, reusable and weather-resistant fire warning 📝 Published in Chemical Engineering Journal in 2022, cited 158 times.
  3. Temperature-responsive resistance sensitivity controlled by L-ascorbic acid and silane co-functionalization in flame-retardant GO network for efficient fire early-warning response 📝 Published in Chemical Engineering Journal in 2020, cited 137 times.
  4. Silane grafted graphene oxide papers for improved flame resistance and fast fire alarm response📝 Published in Composites Part B: Engineering in 2019, cited 137 times.
  5. Facile and green synthesis of mechanically flexible and flame-retardant clay/graphene oxide nanoribbon interconnected networks for fire safety and prevention 📝 Published in Chemical Engineering Journal in 2021, cited 124 times.
  6. Design of mechanically stable, electrically conductive and highly hydrophobic three-dimensional graphene nanoribbon composites by modulating the interconnected network on … 📝 Published in Composites Science and Technology in 2019, cited 97 times.
  7. Fire intumescent, high-temperature resistant, mechanically flexible graphene oxide network for exceptional fire shielding and ultra-fast fire warning 📝 Published in Nano-Micro Letters in 2022, cited 92 times.
  8. Smart fire-warning materials and sensors: Design principle, performances, and applications 📝 Published in Materials Science and Engineering: R: Reports in 2022, cited 90 times.
  9. One-step and green synthesis of lightweight, mechanically flexible and flame-retardant polydimethylsiloxane foam nanocomposites via surface-assembling ultralow content of … 📝 Published in Chemical Engineering Journal in 2020, cited 89 times.
  10. Bio-inspired, sustainable and mechanically robust graphene oxide-based hybrid networks for efficient fire protection and warning 📝 Published in Chemical Engineering Journal in 2022, cited 86 times.