Yong Zhu

Associate Department Head for Research and Faculty Advancement

In addition to his duties as Associate Department Head for Research and Faculty Advancement, Dr. Yong Zhu also serves as Andrew A. Adams Distinguished Professor. 

Dr. Zhu’s long-term goal is to advance nanoscience and nanotechnology by improving the understanding of nanoscale material behavior and exploring the applications of nanomaterials.

At the graduate level, Dr. Zhu teaches Micro/Nano electromechanical Systems (MAE 536) for students interested in the fundamentals and the applications of micro/nano sensors and actuators. His lecture style course includes guest lecturers from industry and academia, and concludes with final projects of teams of 2 to 3 students in which the teams, based on the class material, propose and design micro/nano transducers for their intended applications, and study related scientific issues. Dr. Zhu also teaches Advanced Solid Mechanics (MAE 541), which teaches elasticity theory leading to solution of practical engineering problems concerned with stress and deformation analysis.

Dr. Zhu’s graduate students are self-motivated; they like both experimental and theoretical work, and tend to enjoy intellectually challenging, multi-disciplinary problems. The research they conduct in Dr. Zhu’s lab advances a major engineering frontier that may eventually lead to important new discoveries in the field of nanoscience and nanotechnology.

At the undergraduate level, Dr. Zhu teaches Solid Mechanics (MAE 214) and Strength of Mechanical Components (MAE 316). Both of these classes are taught following standard practices but he also includes in his lectures examples taken from his work on nano/micro devices.

See also Dr. Zhu’s ResearcherID site and his Google Scholar link below.

Outside of work, Dr. Zhu enjoys travel and sports like basketball, swimming, and ping-pong.

Publications

Biodegradable Chitosan-Based Stretchable Electronics with Recyclable Silver Nanowires
Ahmad, M., Shukla, D., Zhu, Y., & Velev, O. D. (2025, February 19), ACS APPLIED MATERIALS & INTERFACES, Vol. 2. https://doi.org/10.1021/acsami.4c20193
A Flexible and Wearable Sparse Ultrasound Array Integrated with a Functional Electrical Stimulation Array for Spatially Distributed Sequential Stimulation
Moon, S., Xue, X., Shukla, D., Ganesh, V., Zhu, Y., Sharma, N., & Jiang, X. (2024), 2024 IEEE ULTRASONICS, FERROELECTRICS, AND FREQUENCY CONTROL JOINT SYMPOSIUM, UFFC-JS 2024. https://doi.org/10.1109/UFFC-JS60046.2024.10793707
A modeling framework to identify environmentally greener and lower-cost pathways of nanomaterials
Lan, K., Wang, H. S.-H., Lee, T., de Assis, C. A., Venditti, R. A., Zhu, Y., & Yao, Y. (2024), Green Chemistry, 26(6), 3466–3478. https://doi.org/10.1039/d3gc04036d
Body-conforming Multi-modal Sensing with Ultrasound-compatible Surface Electromyography Sensors and a Wearable Ultrasound Array
Moon, S., Xue, X., Ganesh, V., Shukla, D., Zhu, Y., Sharma, N., & Jiang, X. (2024), 2024 IEEE ULTRASONICS, FERROELECTRICS, AND FREQUENCY CONTROL JOINT SYMPOSIUM, UFFC-JS 2024. https://doi.org/10.1109/UFFC-JS60046.2024.10793647
Encapsulated stretchable amphibious strain sensors
Wu, S., Kim, D., Tang, X., King, M. W., & Zhu, Y. (2024, August 1), MATERIALS HORIZONS, Vol. 8. https://doi.org/10.1039/d4mh00757c
Mechanics of Flexible and Stretchable Electronics
Zhu, Y., & Lu, N. (Eds.). (2024). , . https://doi.org/10.1002/9783527842308
Modular multi- degree- of- freedom soft origami robots with reprogrammable electrothermal actuation
Wu, S., Zhao, T., Zhu, Y., & Paulino, G. H. (2024), PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 121(20). https://doi.org/10.1073/pnas.2322625121
Multiscale Mechanics of Metal Nanowire‐Based Stretchable Electronics
Wu, S., & Zhu, Y. (2024), https://doi.org/10.1002/9783527842308.ch2
Nanowire Strain Sensor-Based Word Recognition for Speech-Impaired Users
Zhang, E., Wu, S., Shen, A., Syed, Z., Zhu, Y., & Shen, X. (2024), https://doi.org/10.1109/nano61778.2024.10628928
Roadmap on printable electronic materials for next-generation sensors
Pecunia, V., Petti, L., Andrews, J. B., Ollearo, R., Gelinck, G. H., Nasrollahi, B., … Leong, W. L. (2024), NANO FUTURES, 8(3). https://doi.org/10.1088/2399-1984/ad36ff

View all publications via NC State Libraries

Grants

  • Multifunctional Leaf Wearable Sensor for Continous Plant Physiology Monitoring
  • FMRG: Future Eco Manufacturing of Soft Electronics
  • SCH: A Personalized Wearable Rehabilitation Sensing System for Stroke Survivors
  • Plant-Aid: A Data Driven and Sensor Integrated Platform to Monitor Emerging Plant Diseases
  • PFI-TT: Wearable Strain Sensors for Real-Time Joint Angle Tracking in Sports
  • Collaborative Research: Investigating the Strain-Rate and Time-Dependent Plasticity and Mechanical Properties of Metal Nanowires
  • (20-21572) Development of an In-Situ Testing Laboratory for Research and Education of Very High Temperature Reactor Materials
  • Collaborative Research: Brittle-to-Ductile Transition and Strength of Silicon Nanowires at Elevated Temperatures
  • A Wearable Sensing System for Continuous Assessment of Outcomes of Orthotic Hand Users in Real-World Settings
  • SNM: Printing and Integration of Metal Nanowires and Organic Semiconductors for Large-Area Stretchable Electronics and Sensors
Yong Zhu