Zhang Xuexue | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Ms. Zhang Xuexue | Experimental methods | Best Researcher Award

Student at Anhui University of Technology, China

Zhangxuexue is a dedicated graduate student at Anhui University of Technology, specializing in the field of absorbing materials. With a passion for materials science and nanotechnology, she has already made meaningful academic contributions during her academic journey. Her standout work involves the development of air/SiO₂@Fe/C yolk-shell nanospheres, which has been published in the prestigious Journal of Alloys and Compounds. Zhangxuexue demonstrates a strong foundation in research methodology and is positioning herself as a rising researcher in electromagnetic wave absorption materials.

Author Profile 

Scopus

Education

Zhangxuexue is currently pursuing her graduate studies at Anhui University of Technology, majoring in Materials Science and Engineering. Her coursework and academic training have provided her with a robust foundation in material synthesis, nanotechnology, and electromagnetic wave interaction. Throughout her studies, she has engaged in laboratory work and collaborative research projects, gaining hands-on experience in materials characterization techniques such as SEM, XRD, and VSM. The interdisciplinary curriculum at Anhui University of Technology has equipped her with both theoretical knowledge and practical skills in designing advanced functional materials. Her thesis work focuses on yolk-shell nanostructures for electromagnetic wave absorption, where she integrates material chemistry with electromagnetic theory.

Professional Experience

As a graduate researcher at Anhui University of Technology, Zhangxuexue has actively participated in experimental and theoretical research related to electromagnetic wave absorbing materials. Her most notable contribution is the successful design and fabrication of air/SiO₂@Fe/C yolk-shell nanospheres, which she co-developed and characterized using advanced techniques. This research resulted in a peer-reviewed publication, marking an early milestone in her academic career. She has also contributed to various lab-based projects involving the synthesis of hybrid materials, dielectric analysis, and the simulation of microwave absorption behavior. Through this work, she has developed a deep understanding of composite design, material interfaces, and the mechanisms behind wave attenuation.

Awards and Honors

While pursuing her graduate studies at Anhui University of Technology, Zhangxuexue has demonstrated academic excellence and research potential. She has received internal recognition from her department for outstanding performance in materials research and laboratory work. Her paper titled Construction of air/SiO₂@Fe/C yolk-shell nanospheres for boosted low-frequency electromagnetic wave absorption, published in the prestigious Journal of Alloys and Compounds, earned her commendation from faculty and peers alike.

Research Focus

Zhangxuexue’s research focus lies in the field of electromagnetic wave absorbing materials, with a specific interest in yolk-shell nanostructures and hybrid composites. Her work targets the development of lightweight, high-performance materials capable of attenuating low-frequency electromagnetic radiation. By manipulating composition, morphology, and interface properties, she aims to enhance the dielectric and magnetic losses of the absorbing materials. Her flagship study involves air/SiO₂@Fe/C yolk-shell nanospheres, designed to optimize internal scattering and impedance matching for efficient absorption. Beyond microwave absorption, she is also interested in the broader implications of these materials for stealth technology, electronic packaging, and electromagnetic interference (EMI) shielding.

Notable Publication

Construction of air/SiO₂@Fe/C yolk-shell nanospheres for boosted low-frequency electromagnetic wave absorption

Authors: Xuexue Zhang¹, Jing Wang¹, Weiwei Wang, Cao Wu, Chang Liu, Hailiang Deng, Liyan Wei, Weihua Gu, Wenbo Du, Yanning Chen, Hongwei Liu, Xun Cao

Journal: Journal of Alloys and Compounds

Year: 2025

Conclusion

Zhangxuexue is an emerging researcher in the field of electromagnetic wave absorbing materials, with a solid academic foundation and a growing record of scientific contribution. Her innovative work on yolk-shell nanostructures demonstrates both creativity and technical skill in material design. As a graduate student at Anhui University of Technology, she has shown strong potential for impactful research and future academic advancement. With a keen interest in nanomaterials and their real-world applications, Zhangxuexue aims to further explore advanced absorption mechanisms and scalable solutions for electromagnetic interference control. Her dedication and accomplishments position her as a promising talent in materials science.

 

 

Dong Wang | Experimental methods | Best Researcher Award

Published on by High Energy Physics

Mr. Dong Wang | Experimental methods | Best Researcher Award

Professor at Shandong University of Technology | China

Wang Dong, is a highly accomplished academic and researcher. He currently serves as a professor at the School of Materials Science and Engineering at Shandong University of Technology. Wang Dong is also a doctoral supervisor and holds several key positions, including Secretary of the Party Branch of the Engineering Ceramics Research Institute, Vice President, and Vice President of Science and Technology at Shandong Sina New Material Technology Co., Ltd. He is the leader of the “Youth Innovation Team Plan” of Shandong University of Higher Learning. His academic journey is supported by his extensive publications, research, and contributions to materials science, especially in energy storage devices and functional materials.

👨‍🎓Profile

Scopus

Early Academic Pursuits 🎓

Wang Dong began his academic journey at Harbin Institute of Technology (HIT), where he completed his Bachelor’s degree in 2011, followed by a Master’s degree in 2013. Afterward, he earned his Doctoral degree at HIT in 2018. During his time at HIT, his passion for materials science and energy storage materials began to take root, which shaped his career direction.

Professional Endeavors 💼

In 2018, Wang Dong took on the role of Professor and Ph.D. Supervisor at Shandong University of Technology, where he currently oversees a dynamic research team. Apart from his academic duties, he is actively involved in various industry collaborations, such as his leadership role at Shandong Sina New Material Technology Co., Ltd. Wang’s involvement in science and technology extends to presiding over projects funded by significant national and provincial funds, including the National Natural Science Foundation and Shandong Province Natural Science Fund.

Contributions and Research Focus 🔬

Wang Dong’s research areas focus on the development of energy storage devices and key materials, with an emphasis on functional inorganic non-metallic materials. His expertise covers materials science, nanomaterials, capacitive deionization, and electrochemical storage, particularly in the context of lithium-ion batteries and electrode materials. Wang has successfully led seven science and technology projects and published 28 SCI papers as the first or corresponding author. His work has contributed to innovative breakthroughs in high-performance energy storage technologies, including developing novel anode materials and advanced nano-architectures.

Impact and Influence 🌍

Wang Dong has made a significant impact in both academic circles and industrial applications. His research on energy storage materials has not only advanced scientific understanding but also influenced the development of practical solutions in the energy sector. With eight invention patents to his name, Wang’s work directly supports technological advancements that can lead to sustainable solutions in energy storage and environmental conservation.

Academic Citations 📑

Wang Dong’s publications have garnered widespread recognition. His research articles are highly cited across multiple academic journals, particularly in the fields of materials science, nanotechnology, and energy storage systems. His publications in high-impact journals such as Nano Research, Rare Metals, and Journal of Colloid and Interface Science have contributed significantly to advancing the scientific community’s understanding of nanomaterials and their applications in energy storage.

Research Skills and Expertise 🔧

Wang Dong is recognized for his exceptional research skills in material synthesis, characterization techniques, and innovative design of nano-materials. His approach combines both theoretical modeling and experimental research to explore new materials and their applications. His hands-on expertise in nano-engineering, structural regulation, and electrochemical testing has earned him respect among peers and established his reputation as a leader in his field.

Teaching Experience 📚

As a Ph.D. supervisor, Wang Dong has contributed significantly to the academic growth of his students, fostering the development of the next generation of scientists. He has mentored numerous graduate students and researchers, guiding them through complex projects in materials science and energy storage. His teaching philosophy emphasizes critical thinking, innovation, and hands-on learning, providing students with a comprehensive understanding of both fundamental principles and cutting-edge technologies.

Awards and Honors 🏆

Throughout his career, Wang Dong has earned numerous accolades for his scientific achievements and contributions to the field of materials science. These include recognition for his patent filings, research excellence, and leadership roles in high-profile projects. His academic and industry achievements have earned him several awards, including honors from both Shandong University of Technology and national scientific bodies.

Legacy and Future Contributions 🔮

Wang Dong’s future research endeavors are poised to make significant contributions to the sustainable development of energy storage technologies. His ongoing work promises to lead to innovations that can address global energy challenges, contributing to green technologies and climate change mitigation. As he continues to lead research teams and mentor future scientists, his legacy in materials science will inspire further breakthroughs in nanotechnology and renewable energy solutions.

Publications Top Notes

Photovoltaic waste silicon powder-engaged construction of silicon/graphite nanosheet/carbon composite microspheres for lithium-ion batteries anodes

  • Authors: Y. Li, D. Wang, X. Wang, D. Wang, G. Wen
    Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
    Year: 2025

Application of carbon-based MOF derived Fe/C composites toward excellent microwave absorption

  • Authors: X. Xu, X. Li, H. Yang, X. Huang, R. Zhang, D. Wang, G. Wen
    Journal: Materials Science and Engineering B
    Year: 2025

Electrical discharge machinable intra/inter type B4C composites with enhanced mechanical properties by two-step reactive spark plasma sintering

  • Authors: Y. Zhang, X. Huang, D. Wang, X. Ma, S. Ran
    Journal: Journal of the European Ceramic Society
    Year: 2025

Unraveling the chloride ion capture capability of nitrogen-doped porous carbon for capacitive deionization and desalination battery

  • Authors: H. Yang, R. Zhang, Z. Liu, G. Wen, D. Wang
    Journal: Chemical Engineering Journal
    Year: 2024

Multi-dimensional, multi-interface Fe3C/carbon sheets/carbon tubes nanoarchitecture towards high-performance microwave absorption

  • Authors: X. Xu, R. Zhang, X. Li, X. Huang, G. Wen, D. Wang
    Journal: Colloids and Surfaces A: Physicochemical and Engineering Aspects
    Year: 2024