Zhang Danhui is an accomplished associate professor at the School of Mechanical and Vehicle Engineering, Linyi University, with a distinguished background in engineering and nanomaterials research. Since earning her Ph.D. in Engineering from Nanjing University of Science and Technology in 2012, she has developed a robust research portfolio focused on inorganic nanofunctional materials, polymer composites, and carbon-based nanostructures. With over 40 academic publications, more than 30 of which are indexed in SCI, Dr. Zhang has contributed significantly to fields including surface-enhanced Raman scattering, molecular dynamic simulations, and fluorescence sensors. Her dedication to academic excellence is evident in her active participation in national and provincial research projects, authorship of a scientific monograph, and mentorship of student-led research, resulting in SCI papers and patent grants. In addition to her research work, she is a committed educator, delivering core undergraduate and graduate courses across thermodynamics, chemistry, and physics. She has been recognized with multiple awards for academic and instructional excellence, as well as one registered utility model patent. Dr. Zhang continues to be a key figure in applied materials research and education, combining theoretical innovation with practical applications. Her scholarly contributions position her as a leading candidate for research honors at the national level.

Professional Profile

• ORCID Profile

Education

Zhang Danhui completed her doctoral studies in Engineering at Nanjing University of Science and Technology in 2012. Her doctoral research focused on the synthesis, structure, and properties of functional nanomaterials, specifically targeting noble metal and carbon-based composites. The strong academic foundation laid during her Ph.D. studies has equipped her with a deep understanding of both experimental and theoretical aspects of materials engineering. Prior to her doctoral studies, she had acquired a comprehensive background in science and engineering disciplines, including chemistry, materials science, and applied physics. Her education emphasizes interdisciplinary integration, a feature that is clearly reflected in her ongoing research. The curriculum and training received at Nanjing University of Science and Technology, one of China’s top-tier technical institutions, prepared her for a career that bridges molecular science, nanotechnology, and engineering applications. Furthermore, her academic background has been instrumental in enabling her to teach advanced subjects such as Engineering Thermodynamics, University Physics, and Engineering Chemistry. Her educational path reflects a consistent trajectory of scientific rigor, analytical skill development, and innovation—all of which continue to inform and strengthen her research and academic contributions.

Professional Experience

Since July 2012, Zhang Danhui has served as an associate professor at the School of Mechanical and Vehicle Engineering, Linyi University. Over the years, she has developed an impressive teaching and research portfolio. Her professional duties include lecturing core undergraduate and postgraduate courses in Engineering Thermodynamics, Advanced Mathematics, Engineering Chemistry, and University Physics. Beyond her teaching responsibilities, she actively supervises student research and project development. Under her mentorship, students have produced multiple scientific outcomes, including the publication of an SCI-indexed paper and the authorization of a utility model patent. She has led and participated in several significant national and provincial research initiatives, including projects funded by the National Natural Science Foundation of China and the Natural Science Foundation of Shandong Province. Dr. Zhang has also contributed as a co-investigator in studies involving nonlinear dynamics, rod pumping systems, and nanomaterial simulations. Her role at Linyi University underscores a blend of academic instruction, mentorship, and scientific investigation. Her contributions to institutional research and education have been acknowledged through various awards and recognitions, marking her as a key faculty member within her department. Her continuous commitment to science and education exemplifies the standards of academic excellence.

Research Interest

Zhang Danhui’s research interests lie at the intersection of nanotechnology, materials science, and polymer engineering. Her primary focus is on the chemical preparation and structural characterization of inorganic nanofunctional materials. She has explored complex material behaviors at the atomic level through molecular dynamic simulations, particularly focusing on polymer composites and graphene-based structures. Another central area of her work involves the design, synthesis, and application of new carbon materials, such as carbon nanotubes and graphene derivatives, which are known for their potential in electronics, sensors, and energy storage. Her research has extended into surface-enhanced Raman scattering, fluorescence sensors, and the structural formation of hybrid nanomaterials like silver and platinum-coated carbon structures. Her theoretical modeling work, especially in simulating the curling and core-shell formations of carbon nanostructures, has advanced the understanding of their functional properties in applied settings. She combines simulation studies with experimental synthesis, aiming for practical applications in catalysis, optics, and electronics. This dual approach ensures that her work remains both scientifically grounded and technologically relevant. Dr. Zhang’s research is interdisciplinary, combining chemistry, physics, and materials engineering to explore novel material functionalities and applications.

Research Skills

Dr. Zhang Danhui possesses a versatile and advanced skill set in materials research, particularly within the realms of nanomaterials and polymer simulations. Her core skills include chemical synthesis of metallic and carbon-based nanostructures, advanced molecular dynamics simulation, surface functionalization, and nanomaterial characterization. She is proficient in applying computational techniques to study molecular behavior, bonding interactions, and mechanical stability of composite structures. Her experimental capabilities span a range of modern techniques, including Raman spectroscopy, electron microscopy, XRD, and UV-Vis spectroscopy, often used to validate her simulation results. Furthermore, she has expertise in modeling structural transitions and diffusion dynamics at the nanoscale, contributing to predictive understanding in the design of new materials. Her skillset extends into academic writing, scientific reporting, and the preparation of grant proposals, as evidenced by her extensive publication record and successful project leadership. In addition, her experience in supervising research students has enabled her to develop strong mentoring, analytical problem-solving, and collaborative project management skills. She has effectively bridged theoretical and applied research, a rare and valuable competency that enhances the innovation and impact of her scientific work.

Awards and Honors

Zhang Danhui has received multiple honors that reflect her academic excellence and contributions to research and education. She has been recognized with two municipal and departmental awards for outstanding scientific achievements, which underscore the significance and quality of her research output in the field of nanomaterials and materials engineering. Additionally, she earned an Outstanding Instructor Award, highlighting her excellence in academic mentorship and student guidance. These accolades demonstrate not only her ability to conduct high-level research but also her dedication to teaching and capacity to inspire young researchers. Her efforts in guiding student-led projects have led to notable achievements, including a published SCI-indexed paper and an authorized utility model patent, further confirming her strength in nurturing academic growth and innovation. Moreover, she holds a patent titled “An energy-saving power bank”, registered in China (ZL2019 2 0847842.9), reflecting her inclination toward real-world applications of research. Her professional recognition spans both scientific innovation and educational impact, making her a well-rounded scholar. These honors affirm her status as a leading researcher and educator within her institution and beyond, contributing meaningfully to national and regional scientific progress.

Conclusion

Zhang Danhui exemplifies a rare blend of academic excellence, research innovation, and educational commitment. With a strong foundation in engineering and a focused research agenda in nanofunctional materials and polymer composites, she has consistently demonstrated high-impact scientific productivity. Her robust publication record, leadership in funded projects, and expertise in molecular simulations and material synthesis position her as a leading contributor in her field. Beyond research, her dedication to student mentorship and instruction in core engineering subjects underscores her value as an educator. Her work reflects a dynamic integration of theoretical understanding and practical innovation, bridging gaps between computation, experimentation, and application. Recognition through awards, patents, and institutional accolades further attests to her wide-ranging influence. Dr. Zhang’s contributions not only advance the frontiers of nanotechnology and materials science but also help shape the next generation of engineers and researchers. Her professional journey, characterized by dedication, innovation, and impact, makes her an outstanding candidate for prestigious research awards. Moving forward, greater international collaboration and industry engagement could further amplify her global influence and the real-world application of her discoveries. Her career serves as a model of excellence in interdisciplinary research and academic leadership.

Publications Top Notes

1. Self-assembly behaviour of heterocyclic polymers induced by multiple carbon cone molecules

• Authors: Xiangkang Zhang, Danhui Zhang, Wenqiang Hu, Houbo Yang, Zhongkui Liu, Xiangfei Ji, Dengbo Zhang

• Year: 2025

• Journal: Journal of Solid State Chemistry

2. Autonomous assembly behavior of polypyrrole induced by carbon cone[2,3]

• Authors: Mingchen Gong, Danhui Zhang, Houbo Yang, Liu Yang, Dengbo Zhang, Ruquan Liang, Anmin Liu

• Year: 2025

• Journal: Inorganic Chemistry Communications

3. Multiple fullerene C70s induce polyacetylene to form a fish-like structure

• Authors: Houbo Yang, Danhui Zhang, Ruquan Liang, Chenglei Zhang, Anmin Liu

• Year: 2021

• Journal: Solid State Communications

4. Formation of “hemp flowers” structures from polyphenyl induced by C70

• Authors: Danhui Zhang, Ruquan Liang, Houbo Yang, Yuanmei Song, Jianhui Shi, Dengbo Zhang, Liu Yang, Anmin Liu

• Year: 2021

• Journal: Surfaces and Interfaces

5. Formation of Multiple‐Helical Core‐Shell Structure from Polyphenyl and Boron Nitride Nanotube

• Authors: Houbo Yang, Danhui Zhang, Ruquan Liang, Zhongkui Liu, Yuanmei Song, Liu Yang, Anmin Liu

• Year: 2021

• Journal: Advanced Theory and Simulations

6. Research on the Interfacial Interaction between Polyacetylene and Silver Nanowire

• Authors: Danhui Zhang, Ruquan Liang, Zhongkui Liu, Houbo Yang, Jianhui Shi, Yuanmei Song, Dengbo Zhang, Anmin Liu

• Year: 2020

• Journal: Macromolecular Theory and Simulations

7. Molecular dynamics simulations of single-walled carbon nanotubes and polynylon66

• Authors: Danhui Zhang, Houbo Yang, Zhongkui Liu, Anmin Liu

• Year: 2019

• Journal: International Journal of Modern Physics B