Professor at Huazhong University of Science and Technology, China
Professor Guangming Tao is a distinguished academic at the Huazhong University of Science and Technology (HUST) in Wuhan, China. He serves as a Professor at both the Wuhan National Laboratory for Optoelectronics and the School of Materials Science and Engineering, and also leads as Director of the Sports and Health Initiative at the Optics Valley Laboratory. With a prolific academic journey rooted in optics and advanced materials, Prof. Tao has become an internationally recognized leader in wearable photonic technologies, metatextiles, and fiber-based smart systems, boasting over 120 research papers and ~6500 citations as of 2025.
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š Early Academic Pursuits
Prof. Tao began his academic journey with a Bachelorās degree in Optical Information Science and Technology from Shandong University (2006-2009). He then earned a Masterās in Optics from Fudan University, further deepening his expertise in light-based technologies. Driven by a strong research inclination, he pursued his Ph.D. in Optics at the University of Central Florida (CREOL), under the guidance of Prof. Ayman Abouraddy. His early academic focus laid a robust foundation in photonic materials, optical fiber design, and fabrication techniques, which later evolved into interdisciplinary applications in wearables, health monitoring, and energy-efficient devices.
š§āš¼ Professional EndeavorsĀ
Following his Ph.D., Prof. Tao continued at CREOL, University of Central Florida, serving as a Research Scientist (2014ā2015) and later as a Senior Research Scientist (2015ā2017). In 2017, he returned to China to join HUST as a full professor. At HUST, he leads multiple initiatives spanning materials science, optoelectronics, and smart textiles. As Director at Optics Valley Laboratory, he coordinates research that bridges fundamental science with real-world applications, notably in sports health, environmental sensing, and interactive display systems. His work emphasizes scalability, interactivity, and energy efficiency, making significant contributions to national and global research programs.
š¬ Contributions and Research Focus
Prof. Taoās research is centered around wearable optoelectronics, fiber-based intelligent systems, and metamaterials for thermal regulation. He has pioneered innovations such as photochromic fiber displays, cooling metafabrics, and smart electronic cords. His published work includes breakthroughs in Science, Light: Science & Applications, Advanced Materials, and Nature Communications. His group focuses on designing materials that combine mechanical comfort, visual functionality, and energy autonomy, enabling advances in smart clothing, health monitoring, and adaptive camouflage. His innovations bridge the gap between lab-scale photonics and consumer-level smart textiles, defining new paradigms in functional wearables.
š Impact and Influence
With over 6500 citations, Prof. Taoās research has had a broad international impact across optics, materials science, wearable electronics, and environmental engineering. His innovations are shaping next-generation smart fabrics and redefining how textiles interact with light and temperature. His passive radiative cooling metafabrics, recognized by Science, are now a reference in sustainable energy management. His photochromic fiber displays are transforming interactive wearables, making them lighter, more responsive, and energy-efficient. Through international collaborations and open-access dissemination, he has become a thought leader, influencing both academic peers and industrial developers in smart material systems.
š Academic Citations
Prof. Taoās scholarly influence is marked by 120+ peer-reviewed publications and ~6500 citations (as of July 2025), with papers featured in top-tier journals such as Science, Nature Communications, Advanced Materials, and Light: Science & Applications. His most cited works include “Hierarchical-morphology metafabric” (Science 2021) and “Imperceptible braided electronic cord” (Nat. Commun. 2022). His research is consistently referenced in studies on thermal textiles, wearable sensors, and adaptive optics, underlining his central role in advancing interdisciplinary material technologies. His H-index and citation velocity reflect both the depth and growing relevance of his contributions to global innovation.
š§Ŗ Research Skills
Prof. Tao possesses a unique combination of expertise in optics, nanofabrication, polymer processing, and textile integration. His core skills include fiber optics design, photochromic materials engineering, thermal management systems, and flexible electronics integration. He excels at converting advanced material science principles into functional, wearable prototypes. He leads multi-institutional projects, efficiently managing teams with diverse backgrounds. His capability to develop scalable fabrication processes makes his innovations ready for mass production and real-world adoption. With strong analytical and experimental skills, he bridges the gap between laboratory innovation and commercial application, often delivering solutions tailored to healthcare, environment, and defense sectors.
š§āš« Teaching ExperienceĀ
At Huazhong University of Science and Technology, Prof. Tao teaches courses in Optoelectronics, Advanced Materials, and Smart Textiles to undergraduate and graduate students. He actively supervises Ph.D. and Masterās students, many of whom have received national scholarships and awards. His mentorship emphasizes interdisciplinary thinking, hands-on experimentation, and innovation-driven research. He integrates cutting-edge research topics into his teaching, fostering a research-intensive learning environment. Through seminars, workshops, and lab training, he cultivates the next generation of scientists in wearable technologies and functional materials. His teaching philosophy is centered on curiosity, creativity, and cross-border collaboration.
š Awards and Honors
Prof. Tao has earned multiple accolades recognizing his scientific innovation and leadership. These include Best Paper Awards, invitations to international keynote speeches, and governmental research grants supporting national-level projects. His paper on radiative cooling metafabric gained global attention and has been cited in climate and textile engineering domains. He has been nominated for awards in smart wearable innovation and advanced materials research, reflecting his broad influence. His leadership at the Optics Valley Laboratory and his role in large-scale interdisciplinary projects showcase his visionary direction in research. His consistent recognition affirms his place among leading figures in wearable photonics.
š® Legacy and Future Contributions
Prof. Guangming Tao is shaping the future of smart materials and functional fabrics. His legacy lies in merging fundamental optics with wearable systems, setting new benchmarks in interactive textiles and adaptive materials. Looking forward, he aims to expand into bio-integrated systems, AI-driven textile interfaces, and next-gen photonic skin for healthcare and defense. He envisions a world where textiles are not passive layers, but intelligent interfaces interacting seamlessly with users and the environment. Through global collaborations, mentorship, and technology transfer, Prof. Tao is committed to pushing scientific boundaries while ensuring that innovations reach and benefit society at large.
Publications Top Notes
Radiation-modulated thermoelectric fabrics for wearable energy harvesting
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Authors: Y. Wang, H. Liu, S. Zhang, G. Tao, C. Liu, C. Shen
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Journal: National Science Review
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Year: 2025
Stretchable polymer optical fiber with an unusual relationship between optical loss and elongation
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Authors: W. Wang, Z. Li, R. Zhao, Y. He, G. Tao, C. Hou
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Journal: Journal of Lightwave Technology
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Year: 2024
All-polymer aqueous fiber battery for sustainable electronics
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Authors: M. Yang, G. Tao, M. Zhu, C. Hou
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Journal: Advanced Fiber Materials
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Year: 2025
Scalable hierarchicalācolored passive cooling Metapaint for outdoor facility
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Authors: M. Yang, Z. Zhou, M. Liu, J. Wu, J. Li, J. Liang, S. Zhang, M. Chen, H. Zeng, X. Li, G. Tao, et al.
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Journal: EcoMat
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Year: 2024
Cooling textiles provide a new solution to urban heat islands
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Authors: Z. Li, S. Zhang, Z. Yang, Z. Liang, N. Zhou, G. Tao, C. Hou
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Journal: Advanced Fiber Materials
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Year: 2024