School of Automation Engineering China
👨🎓Profiles
🎓 Early Academic Pursuits
Prof. Xianhe Huang began his academic journey with a Bachelor of Science in Physics from Sichuan University, completed in July 1985. Demonstrating a strong aptitude for the physical sciences, he pursued further education and earned a Master of Engineering from the University of Electronic Science and Technology of China (UESTC) in March 1988. His educational background laid a robust foundation for his future research in frequency control technologies and precision instrumentation.
🧑🔬 Professional Endeavors
After completing his master’s degree, Prof. Huang commenced his professional career at the Southwest Institute of Electronics Technology, where he held key roles for over a decade. From 1988 to 1991, he served as an Engineer, followed by a tenure as Senior Engineer until 2001, and later as a Researcher until April 2002. In April 2002, he joined the University of Electronic Science and Technology of China as a Professor in the School of Automation Engineering, a position he has held ever since. His transition into academia marked a significant phase in combining research with higher education.
🔬 Contributions and Research Focus
Prof. Huang’s research has led to impactful advancements in frequency stability of quartz crystal devices, quartz crystal microbalance (QCM) sensors, and atomic clock systems. His work on the thermal and aging behavior of quartz oscillators has been critical for improving precision in timing circuits. He has also significantly contributed to the development of QCM sensors for ultra-sensitive detection in chemical and biological contexts. Additionally, his expertise in atomic clock technologies supports innovations in ultra-precise timekeeping systems, essential for satellite communications and navigation technologies.
🌍 Impact and Influence
Prof. Huang is recognized internationally for his leadership in the frequency control community. As an IEEE Senior Member affiliated with the Ultrasonics, Ferroelectrics, and Frequency Control (UFFC) Society, and a Technical Program Committee Member of the IEEE International Frequency Control Symposium (IFCS), he plays a vital role in guiding global discourse on time-frequency technologies. His collaborations and contributions continue to shape strategic advancements in automation, metrology, and sensor systems.
📚 Academic Citations
While specific citation metrics are not listed here, Prof. Huang’s scholarly work is well-respected and cited in the academic literature surrounding quartz-based oscillators, atomic precision timing systems, and microbalance sensor technologies. His contributions have informed both foundational studies and real-world applications in timekeeping and detection.
🛠️ Technical Skills
Prof. Huang brings to the field a wealth of technical proficiency, including:
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Design and optimization of quartz crystal resonators
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QCM sensor development and calibration
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Atomic clock integration and performance analysis
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High-frequency signal stability assessment
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Electronic circuit design for frequency-sensitive applications
These skills are instrumental in both his research and mentoring of postgraduate students.
👨🏫 Teaching Experience
At UESTC, Prof. Huang is not only a researcher but also a dedicated educator. He has supervised numerous graduate theses and student research projects, bridging the gap between theoretical knowledge and industrial application. His teaching emphasizes a solid understanding of physical principles, electronics, and measurement science, with a strong focus on innovation and critical thinking.
🧭 Legacy and Future Contributions
Prof. Xianhe Huang has established a respected legacy as a pioneer in precision frequency control and sensing technologies. His influence extends from research labs to classrooms, contributing to China’s development in electronic systems and precision engineering. Looking ahead, his research continues to evolve toward next-generation atomic clocks, nano-sensor networks, and AI-assisted time-frequency analysis, promising to contribute to cutting-edge advancements in global communication and measurement technologies.
📖Notable Publications
1. Investigating the Mass Sensitivity of Quartz Crystal Microbalances with Circularly Symmetric Electrodes in the Third Overtone Mode
Authors: M. Wang, Minghao; X. Huang, Xianhe; Q. Huang, Qirui
Journal: Analytical Chemistry
Year: 2024
2. Nanodiamond/Ti₃C₂ MXene-coated Quartz Crystal Microbalance Humidity Sensor with High Sensitivity and High Quality Factor
Authors: Y. Yao, Yao; Q. Chen, Qiao; Y. Li, Yanqi; J. Wang, Jiaqi; C. Chen, Changming
Journal: Rare Metals
Year: 2024
3. Nanochitin/MXene Composite Coated on Quartz Crystal Microbalance for Humidity Sensing
Authors: Y. Li, Yanqi; X. Huang, Xianhe; Q. Chen, Qiao; Y. Yao, Yao; W. Pan, Wei
Journal: Nanomaterials
Year: 2023
4. High-Sensitivity Chitin Nanofiber-Coated Series Piezoelectric Quartz Crystal Humidity Sensors
Authors: Q. Chen, Qiao; K. Tan, Ke; X. Huang, Xianhe; G. Yang, Gang; D. Liu, Dong
Journal: IEEE Sensors Journal
Year: 2023
5. Study of Force-Frequency Characteristics in AT-Cut Strip Quartz Crystal Resonators with Different Rotation Angles
Authors: G. Yang, Gang; X. Huang, Xianhe; K. Tan, Ke; Q. Chen, Qiao; W. Pan, Wei
Journal: Sensors (Switzerland)
Year: 2023