Prof. Yunming Wang | Materials Processing Engineering and Fabrication of Functional Polymers | Outstanding Scientist Award

Professor at Huazhong University of Science and Technology, China

Prof. Yunming Wang is an accomplished researcher and academic affiliated with the State Key Laboratory of Material Processing and Die & Mould Technology at Huazhong University of Science and Technology, China. With a Ph.D. in Materials Processing Engineering, his specialization encompasses fabrication of functional polymers and cutting-edge materials engineering. He has amassed substantial academic and research experience since joining the field, contributing prolifically to the development of multifunctional nanocomposites, triboelectric and piezoelectric nanogenerators, and electronic skin. Prof. Wang’s scholarly journey is distinguished by his postdoctoral work at the University of Wisconsin-Madison, and his appointment as Associate Professor since 2016. His research outputs, including high-impact publications in top-tier journals like Nature Communications and Advanced Functional Materials, reflect his leadership in interdisciplinary innovations. With an H-index of 19 and a cumulative impact factor exceeding 330 in the past three years, his contributions have received international recognition. Prof. Wang is actively involved in editorial responsibilities, international collaborations, and has been honored with notable academic awards. His work demonstrates a strong commitment to advancing polymer device micro-nano structural formation and their diverse applications in biomedical engineering and energy harvesting.

Profile

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Education

Prof. Yunming Wang pursued his undergraduate studies in Applied Chemistry at Anhui University of Technology, China, earning his B.S. degree in 2007. He then proceeded to complete his doctoral studies at the Department of Applied Chemistry, Dalian University of Technology, China, under the mentorship of Prof. Shufen Zhang and Assoc. Prof. Bingtao Tang. From 2007 to 2013, he focused his Ph.D. research on materials processing engineering, specifically within the domain of functional polymer fabrication. His rigorous academic training equipped him with a deep understanding of chemical synthesis, polymer characterization, and the application of material science in advanced manufacturing. This strong foundational background laid the groundwork for his successful transition into international research environments and academic appointments. His educational trajectory showcases a clear dedication to multidisciplinary study, blending applied chemistry with engineering principles to address practical and theoretical challenges in the fabrication and processing of advanced materials.

Professional Experience

Prof. Yunming Wang began his professional journey as a postdoctoral researcher at the College of Engineering, University of Wisconsin-Madison, where he worked from October 2013 to January 2016. During this tenure, he engaged in advanced research in biomedical engineering, honing his skills in piezoelectric and triboelectric systems, nanogenerators, and 3D-printed functional structures. Since January 2016, he has held the position of Associate Professor at the State Key Laboratory of Material Processing and Die & Mould Technology, Huazhong University of Science and Technology, China. In this role, he has been instrumental in leading pioneering research projects and mentoring graduate students. His responsibilities include directing polymer-based nanostructure design, participating in collaborative international research, and publishing in high-impact scientific journals. Over the years, Prof. Wang has also contributed to editorial duties in academic conferences and peer-reviewed journals. His rich professional experience reflects a balance of hands-on laboratory research, theoretical development, and academic leadership, contributing significantly to China’s growing stature in materials science and engineering.

Research Interest

Prof. Wang’s research interests lie at the intersection of materials science, polymer engineering, and applied nanotechnology. He is deeply involved in the study and development of multifunctional nanocomposites with tailored structural and electrical properties. His work on triboelectric and piezoelectric nanogenerators aims to harvest mechanical energy for wearable electronics, artificial skins, and biomedical devices. Another significant area of interest is the application of 3D printing technologies in creating next-generation devices with advanced mechanical flexibility and responsiveness. Additionally, he explores the formulation and microfabrication of electronic skin and other bio-interfacing materials for healthcare and robotics. His innovative approach integrates theoretical modeling with experimental validation, making his research highly translatable to industrial and medical applications. The common thread in his work is the design and control of micro- and nano-scale architectures in polymer-based systems to elicit desired mechanical, optical, or electronic behaviors. With these interests, Prof. Wang contributes to emerging fields like smart materials, bioelectronics, and sustainable energy solutions.

Research Skills

Prof. Wang possesses an extensive skill set that spans polymer synthesis, nanostructure fabrication, micro-nano structuring, and advanced material characterization techniques. His core competencies include the high-elastic forming of polymer nanospheres, the design of responsive polymer crystal structures, and the precise formation of microporous architectures using plastic forming-leaching techniques. He is proficient in techniques such as scanning electron microscopy (SEM), atomic force microscopy (AFM), photoluminescence analysis, and piezoelectric testing, which are critical for analyzing multifunctional material properties. His hands-on experience in additive manufacturing, especially 3D printing, positions him at the forefront of engineering next-generation biomedical devices and wearable technologies. Furthermore, Prof. Wang’s background includes the use of computational modeling for structural optimization and simulation of material responses. His interdisciplinary research methodology blends chemistry, mechanical design, and material physics, enabling him to tackle complex challenges in energy harvesting and biomedical integration. His robust publication record and collaborative achievements reflect his capability in managing large-scale, multidisciplinary research projects.

Awards and Honors

Prof. Wang has received significant recognition for his contributions to material science and engineering. Notably, he has been honored with the International Research Award by ScienceFather, acknowledging his impactful work in nanotechnology and polymer devices. His extensive publication history, with over 54 papers indexed in SCI/SCIE and Scopus databases, and a citation count of 1299, further underscores his scientific influence. He has contributed to five research projects with a total funding exceeding $400,000 USD and holds 45 patents published or under process, showcasing his commitment to innovation and applied science. As a thought leader, he has served as an editorial board member, reviewer, and scientific committee member in five major journals and conferences. His involvement as an invited speaker at international platforms and his travel to research collaborations abroad demonstrate global recognition of his expertise. With an H-index of 19 and an impressive cumulative impact factor of 331 over the past three years, Prof. Wang’s career reflects both academic excellence and a strong commitment to scientific advancement.

Publications

Prof. Wang has an outstanding publication record, with more than 54 peer-reviewed articles in prestigious scientific journals. His representative works include a Nature Communications (2025) article on microsphere-mediated infrared vision and a Chemical Engineering Journal (2025) study on intraocular infrared devices. He has co-authored multiple high-impact papers on piezoelectric scaffolds for bone repair and acoustic resonance-based energy harvesters, such as his 2021 ACS Nano article. One of his 2023 contributions to Advanced Functional Materials (IF: 19) further exemplifies his pioneering research in nanogenerator devices. His cumulative impact factor from these publications is 331 in the past three years, reflecting the relevance and innovation of his work. Prof. Wang’s research has been widely cited, earning him an H-index of 19 and over 1,200 citations. His papers often bridge the gap between polymer science, bioengineering, and energy conversion, making his work a valuable resource in academia and industry alike. These publications stand as testament to his enduring commitment to the advancement of materials science and its practical applications in healthcare and energy sectors.

Conclusion

Prof. Yunming Wang’s academic journey is marked by innovation, interdisciplinary research, and a passion for materials science. His work in polymer micro-nano structuring has introduced new paradigms in energy harvesting, biomedical engineering, and electronic materials. Through his leadership at Huazhong University of Science and Technology, and international collaborations, he has shaped novel techniques and theories that push the boundaries of traditional materials engineering. With an impressive portfolio of publications, patents, and funded projects, he stands as a leading figure in nanotechnology-driven materials processing. Prof. Wang’s combination of research excellence, mentorship, and scientific outreach has earned him global recognition, including prestigious research awards and editorial roles. His contributions exemplify how fundamental research can translate into technologies that impact real-world challenges. Moving forward, his work promises continued advancements in smart materials, sustainable energy systems, and human-machine interfaces. As a dedicated scholar and innovator, Prof. Wang embodies the vision of academic excellence with practical relevance, fostering new possibilities for the next generation of scientists and engineers.