Chenxu Jiang | Semi-crystalline polymers | Best Researcher Award

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Ms. Chenxu Jiang | Semi-crystalline polymers | Best Researcher Award

Ms. Chenxu Jiang, Harbin Institute of Technology, China

Based on Ms. Chenxu Jiang’s qualifications, she appears to be a strong candidate for the Research for Best Researcher Award. Here’s an evaluation of her suitability:

Publication profile

Scopus

Research Focus and Achievements

Ms. Chenxu Jiang is an accomplished researcher affiliated with the National Key Laboratory of Science and Technology on Advanced Composites in Special Environment at Harbin Institute of Technology, China. Her research focuses on semi-crystalline polymers, multiscale finite element modeling, and fatigue analysis. Her work is critical in understanding the mechanical properties and behavior of complex polymer systems under various conditions.

Publications

  1. Fatigue Analysis of Spherulitic Semi-crystalline Polymers: Unveiling the Effects of Microstructure and Defect
    Published in Fatigue & Fracture of Engineering Materials & Structures, this paper explores the fatigue behavior of spherulitic semi-crystalline polymers, shedding light on the influence of microstructure and defects. It is co-authored with Jia Zhou, Jiaxin Cui, Jingfu Shi, and Changqing Miao.
  2. The Study of Mechanical Properties in Sheaf-Structured Spherulite Semi-crystalline Polymers Using a Data-Driven Micromechanical Model
    This publication in Computational Materials Science delves into the mechanical properties of sheaf-structured spherulite semi-crystalline polymers through advanced micromechanical modeling techniques. Co-authors include Jia Zhou, Jiaxin Cui, Zhixin Shi, and Changqing Miao.
  3. Study on Spherulite Anisotropy in Semi-crystalline Polymers: Quantifying Mechanical Properties and Deformation Mechanisms
    Published in the Journal of Materials Science, this paper addresses the anisotropic behavior of spherulites in semi-crystalline polymers and provides insights into mechanical properties and deformation mechanisms. Co-authors are Jia Zhou, Jiaxin Cui, and Changqing Miao.

Conclusion

Ms. Chenxu Jiang’s research contributions, as evidenced by her impactful publications and presentations, underscore her expertise and significant contributions to the field of materials science. Her focus on semi-crystalline polymers and fatigue analysis, coupled with her active participation in relevant conferences, positions her as a highly qualified candidate for the Research for Best Researcher Award.

 

 

Mousa Ghaemy | Polymer Chemistry Award | Best Researcher Award

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Prof. Mousa Ghaemy | Polymer Chemistry Award | Best Researcher Award

Prof. Mousa Ghaemy, University of Mazandaran, Iran

Prof. Mousa Ghaemy is an accomplished polymer chemist with extensive academic contributions. He earned his Ph.D. from the University of Aston, UK, in 1980 and pursued postdoctoral research at the University of Sussex. Currently a full professor at the University of Mazandaran, Iran, he specializes in polymer degradation and stabilization, with notable research on epoxy resins and polyolefins. Prof. Ghaemy has presented his work at numerous international conferences and held various leadership roles, including Vice Chancellor for Research and Head of Chemistry Department. His career spans over four decades, marked by significant contributions to polymer science. 🎓

 

Publication Profile

Education

Prof. Mousa Ghaemy began his academic journey with a B.Sc. in Chemistry from the University of Isfahan, Iran, in 1975. He furthered his studies with an M.Sc. in polymer and fiber science at UMIST, Manchester, UK, focusing on polymer glass transition temperature determination. His Ph.D. in polymer chemistry and technology from the University of Aston, Birmingham, UK, in 1980 explored dynamic properties of thiol-modified ABS polymers.

Research Focus

Prof. Mousa Ghaemy’s research focuses on advanced materials and environmental applications, particularly in polymer chemistry and nanotechnology. He has pioneered the development of novel hydrogel composites, magnetic nanomaterials, and functionalized polymers for efficient removal of heavy metals and dyes from water. His work spans from polymer degradation studies using ethylene glycol to the synthesis of bio-sorbents and nanogels for drug delivery and environmental remediation. Prof. Ghaemy’s contributions, characterized by over 100 publications, exemplify his commitment to sustainable technologies and materials science innovation, impacting fields ranging from biotechnology to water purification. 🧪🌱

Publication Top Notes

Novel magnetic bio-sorbent hydrogel beads based on modified gum tragacanth/graphene oxide: Removal of heavy metals and dyes from water

Novel magnetic bio-sorbent hydrogel beads based on modified gum tragacanth/graphene oxide: Removal of heavy metals and dyes from water

Removal of dyes and heavy metal ions from water by magnetic hydrogel beads based on poly (vinyl alcohol)/carboxymethyl starch-g-poly (vinyl imidazole)

Synthesis of modified gum tragacanth/graphene oxide composite hydrogel for heavy metal ions removal and preparation of silver nanocomposite for antibacterial activity

Polymer grafted graphene oxide: for improved dispersion in epoxy resin and enhancement of mechanical properties of nanocomposite

Low-cost nanoparticles sorbent from modified rice husk and a copolymer for efficient removal of Pb (II) and crystal violet from water

Removal of metal ions from water using nanohydrogel tragacanth gum-g-polyamidoxime: Isotherm and kinetic study

Synthesis of nanohydrogels based on tragacanth gum biopolymer and investigation of swelling and drug delivery

Photocurable, antimicrobial quaternary ammonium–modified nanosilica