Dr Liangkun Lu, Zhengzhou University of Light Industry, China
Dr. Liangkun Lu, Ph.D. in Mechanical Engineering, joined Zhengzhou University of Light Industry in January 2024 as an A-Class Young Talent. His research focuses on micro/nanoprinting technology π¨οΈ, high-resolution functional material processing βοΈ, and flexible organic field-effect transistor (OFET) fabrication π‘. He has contributed to multiple national research projects and has published 10+ SCI-indexed papers π in high-impact journals like Nature Communications and Microsystems & Nanoengineering. Additionally, he holds three software copyrights π», showcasing his technological expertise. His innovative contributions make him a strong contender for the Best Researcher Award π
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Profile
ORCID
SCOPUS
π Education
- π Ph.D. in Mechanical Engineering β Dalian University of Technology (2019-2023)
- π M.Sc. in Mechanical & Electrical Engineering β Guilin University of Electronic Technology (2016-2019)
- π B.Sc. in Mechanical Design & Automation β Henan Polytechnic University (2012-2016)
π Research Focus
Dr. Luβs interdisciplinary work integrates nanotechnology, microelectronics, and advanced printing techniques, focusing on:
- High-Performance MEMS Devices β‘ β Designing next-gen micro-electromechanical systems.
- Nanoprinting Technology & Equipment π¨οΈ β Pioneering advanced printing processes for nanomaterials.
- Multi-Field Coupled Electrohydrodynamic Simulation π β Optimizing nano-scale fluid dynamics for precision fabrication.
π» Software Copyrights
Dr. Lu has developed three patented software solutions for precision nanoprinting control:
1οΈβ£ Sheath Liquid-Focused Electrohydrodynamic Printing Control Software β 2022SR0919249.
2οΈβ£ Sheath Gas-Induced Electrohydrodynamic Printing Control Software β 2022SR0919212.
π Publications
A Real-Time Monitoring and Measurement Method for Microbubble Morphology Based on Image Processing Technology
π Journal: Microchemical Journal (2024)
π¨βπ¬ Authors: Jin, S.; Ye, G.; Guo, Y.; Zhao, Z.; Lu, L.; Liu, Z.; Ding, Z.
A Zinc Oxide Resonant Nano-Accelerometer with Ultra-High Sensitivity
π Journal: Nature Communications (2024)
π¨βπ¬ Authors: Xu, P.; Wang, D.; He, J.; Cui, Y.; Lu, L.; Li, Y.; Chen, X.; Liu, C.; Suo, L.; Ren, T. et al.
A High-Frequency SiC Nanobeam Resonator with Ultra-Sensitivity
π Journal: Materials and Design (2023)
π¨βπ¬ Authors: Xu, P.; Wang, D.; Cui, Y.; Zhang, Y.; He, J.; Lu, L.; Li, Y.; Chen, X.; Liu, C.; Li, P. et al.
A Zinc Oxide Nanobeam Resonator for Ultrasensitivity Mass Detection
π Journal: Advanced Electronic Materials (2023)
π¨βπ¬ Authors: Wang, D.; Xu, P.; Cui, Y.; Zhang, Y.; He, J.; Lu, L.; Li, Y.; Chen, X.; Liu, C.; Li, P. et al.
Computational Study of Drop-on-Demand Coaxial Electrohydrodynamic Jet and Printing Microdroplets
π Journal: Micromachines (2023)
π¨βπ¬ Authors: Abbas, Z.; Wang, D.; Lu, L.; Li, Y.; Pu, C.; Chen, X.; Xu, P.; Liang, S.; Kong, L.; Tang, B.
Electrohydrodynamic Jet Printed Bioinspired Piezoelectric Hair-Like Sensor for High-Sensitivity Air-Flow Detection
π Journal: Smart Materials and Structures (2023)
π¨βπ¬ Authors: Wang, D.; Li, Y.; Hu, X.; Lu, L.; Xu, P.; Chen, X.; Liu, C.; Wang, L.; Liu, B.; Suo, L. et al.
High-Performance Flexible Organic Field Effect Transistors with Print-Based Nanowires
π Journal: Microsystems and Nanoengineering (2023)
π¨βπ¬ Authors: Lu, L.; Wang, D.; Pu, C.; Cao, Y.; Li, Y.; Xu, P.; Chen, X.; Liu, C.; Liang, S.; Suo, L. et al.