Xinxin Zhao | Engineering and Technology | Best Researcher Award

Xinxin Zhao | Engineering and Technology | Best Researcher Award

Dr Xinxin Zhao, School of Metallurgy, Northeastern University, China

Dr. Xinxin Zhao appears to be a strong candidate for the Best Researcher Award based on the following considerations.

Publication profile

Scopus

Research Focus and Innovations

Dr. Zhao specializes in the comprehensive utilization of metallurgical mineral solid waste and non-traditional aluminum resources. Her innovative approach involves the chlorination-oxygen pressure conversion method to extract valuable elements from low-grade bauxite, which addresses the challenges faced by traditional Bayer process treatments. This novel method not only enhances the exploitation of aluminum resources but also contributes to waste reduction and resource efficiency.

Notable Contributions

Co-Extraction of Aluminum and Silicon: Dr. Zhao’s work on the carbochlorination process of low-grade bauxite, published in Materials (2024), focuses on the extraction kinetics and valuable element recovery. Synergistic Extraction from Fly Ash: In her recent publication in the Journal of Sustainable Metallurgy (2024), she explores the extraction of valuable elements from high-alumina fly ash using carbochlorination, showcasing her contributions to sustainable metallurgy. Review on Chitosan Composites: The review article in Polymer Bulletin (2022) by Zhao and colleagues highlights advances in chitosan and its composites, emphasizing her diverse research interests and impact in material science.

Support and Recognition

Dr. Zhao’s research is supported by major funding bodies, including:

  • National Key Research and Development Program of China
  • National Natural Science Foundation of China
  • Cross-Integration and Collaborative Development Project of Northeastern University
  • Natural Science Foundation Joint Fund of Liaoning Province

Research Output and Impact

Her publications span several high-impact journals and include both original research and reviews, reflecting her active engagement in the academic community. Notably, her work on chitosan membranes and aluminum dross treatment has received considerable citations, indicating its significance and influence.

Summary

Dr. Xinxin Zhao’s innovative methodologies, substantial contributions to resource utilization, and strong support from prestigious funding agencies make her a deserving candidate for the Best Researcher Award. Her research not only advances scientific knowledge but also offers practical solutions for sustainable resource management.

Publication top notes

Co-Extraction of Aluminum and Silicon and Kinetics Analysis in Carbochlorination Process of Low-Grade Bauxite

Synergistic Extraction of Valuable Elements from High-Alumina Fly Ash via Carbochlorination

Review on preparation and adsorption properties of chitosan and chitosan composites

Removal of Fluorine, Chlorine, and Nitrogen from Aluminum Dross by Wet Process

Study on Water Model Experimental of Waste Circuit Board Treatment by Top-Blowing Bath Smelting Method

Research Progress of Chitosan Membranes in Pervaporation Separation 

 

JianCheng Gu | Engineering and Technology | Best Researcher Award

JianCheng Gu | Engineering and Technology | Best Researcher Award

Assist Prof Dr JianCheng Gu, Nanjing Tech University, China

Based on Dr. JianCheng Gu’s biography and research contributions, he appears to be a strong candidate for the Best Research Award.

Publication profile

google scholar

Innovative Research

Dr. Gu has developed a novel approach for rapid building damage assessment post-disasters using machine learning and remote sensing. This innovative method addresses a critical need in disaster response and reconstruction, highlighting his ability to push the boundaries of current research.

High-Impact Publications

His work has been published in reputable journals like Composite Structures, Journal of Constructional Steel Research, and Buildings. His research on infrared thermography and shear connectors demonstrates his expertise in structural assessment and repair technologies.

Research Contributions

Dr. Gu’s research on delamination detection, shear resistance, and rapid damage identification has significant practical applications. His studies contribute to improving construction materials and methods, which are crucial for advancing building safety and resilience.

Acknowledged Support

The research is supported by the Japan Society for the Promotion of Science (JSPS), indicating recognition and financial backing from a prestigious institution. This support underscores the relevance and importance of his work in the academic community.

Collaboration and Outreach

Dr. Gu’s collaboration with open-source contributors and his acknowledgment of their efforts reflect his commitment to the broader research community and interdisciplinary work.

Conclusion

Dr. Gu’s innovative approach, impactful publications, significant contributions to structural engineering, and collaboration with the academic community make him a strong candidate for the Best Researcher Award. His work addresses critical issues in disaster management and construction, demonstrating both practical and theoretical advancements in his field.

Publication top notes

Detectability of delamination regions using infrared thermography in concrete members strengthened by CFRP jacketing

Experimental study on the shear resistance of a comb-type perfobond rib shear connector

Image processing methodology for detecting delaminations using infrared thermography in CFRP-jacketed concrete members by infrared thermography

Study of single perfobond rib with head stud shear connectors for a composite structure

Advances in Rapid Damage Identification Methods for Post-Disaster Regional Buildings Based on Remote Sensing Images: A Survey

Calculation method for flexural capacity of composite girders with corrugated steel webs

Effects of corrosion on shear behaviour of discontinuous perfobond rib shear connectors

Experimental study on asynchronous construction for composite bridges with CSWs: Comparative study

Experimental study on flexural behavior of steel-laminated concrete (NC and UHPC) composite beams with corrugated steel webs

Wanting Zhu | Engineering and Technology | Best Researcher Award

Wanting Zhu | Engineering and Technology | Best Researcher Award

Ms Wanting Zhu, School of Electronic Information, Central South University, China

Wanting Zhu is pursuing an M.S. in Electronic Science and Technology at Central South University, China, where she earned her B.S. degree in 2022. She has authored four papers, cited over 30 times. Her research focuses on chaos theory and nonlinear dynamics, exploring complex behaviors in dynamic systems, such as multi-cavity maps and neuron behavior. Zhu’s work involves modeling nonlinear chaotic maps, dynamic analyses, and both digital and analog circuit design, aiming to advance understanding in chaotic systems and their applications across various scientific fields. 📚🔬🌐✨

Publication profile

Orcid

Education

Wanting Zhu received her B.S. degree in Electronic Information Science and Technology from Central South University, China, in 2022. She is pursuing her M.S. degree at the same institution, focusing on chaos theory and nonlinear dynamics. She has authored 4 papers, cited over 30 times. Her research involves modeling nonlinear chaotic maps, dynamic analyses, digital and analog circuit design, advancing understanding in chaotic systems. Kehui Sun, a Professor at Central South University since 2006, received his B.S., M.S., and Ph.D. degrees from the same university. Recognized as a Highly Cited Researcher by Elsevier (2020-2023), he has published over 180 papers, holds 6 patents, and received the Hunan Province Third Prize in Natural Science. 📚🔍✨🔬

Research focus

Wanting Zhu’s research focuses on the dynamics, synchronization, and applications of chaotic systems, particularly in discrete neuron-like maps and hyperchaotic maps. This involves studying the behavior of these systems under various conditions and exploring their potential applications in fields like analog circuit implementation and rotational control operations. Zhu’s work spans the development of multi-dimensional hyperchaotic maps and their practical uses, contributing significantly to the understanding and manipulation of complex dynamic systems. This research aids in advancements in chaos theory and its practical implementations. 🧠🔄🔬📊🔧

Publication top notes

Dynamics, synchronization and analog circuit implementation of a discrete neuron-like map with pulsating spiral dynamics

Dynamics of multicavity hyperchaotic maps with rotational control operation and its applications

A class of m-dimension grid multi-cavity hyperchaotic maps and its application