Hantang Qin

  • Assistant Professor
  • Industrial & Manufacturing Systems Engineering

Main Office

3019 Black Engr
Ames, IA 50011
Phone: 515-294-1248


  • PhD, Industrial Engineering, North Carolina State University, 2016
  • MS, Industrial & System Engineering, North Carolina State University, 2014
  • BS, Electrical Engineering, Zhejiang University, 2012

Interest Areas

Flexible Electronics and Additive Printing Laboratory (FEAP) Dr. Qin received his bachelor’s degree in Electrical Engineering and Automation from Zhejiang University, China. He finished his Ph.D. study in Industrial Engineering with a focus on micro/nano manufacturing at North Carolina State University. Dr. Qin’s research areas include novel additive manufacturing processes, rapid prototyping methods and tools, and manufacturing systems based on inkjet printing and laser ablation for flexible electronics and optoelectronics. His research interests include scaffolds fabrication for biomedical applications, laser ablation, real-time monitoring and automation, CAD/CAM systems, 3D printing, topography optimization, multi-material and multi-scale fabrication based on additive printing. For more information, see the lab webpage: The FEAP lab seeks applicants for two PhD scholarship positions (open until filled): Project 1: Process control of electrohydrodynamic inkjet printing Electrohydrodynamic inkjet printing applies high voltage between a nozzle and substrate to achieve high-resolution patterns in micro/nano scale. The PhD student will work in the micro/nano additive printing platform to perform sets of experiments in terms of sensor fabrication and validation. A strong background in programming, electronic device testing, process control, or data analysis will be preferred. Project 2: Laser ablation and sintering on polymer films The PhD student will work as part of a collaborative project to investigate laser ablation of micro-channels on flexible polymer films, and laser sintering of metal particles on films. The PhD student will study the material property of different polymer films by testing different working conditions of excimer laser ablation. The optimal resolution of micro-channel will be within 20um with clean surface finish. In addition to experiments, modeling and simulation of laser ablation will be studied to further demonstrate process control of the channel fabrication. Qualifications Required The ideal candidates will have a BS or master degree, with strong background in microstructural characterization, mechanical design/testing, electronic device design/testing, programming, and/or laser based fabrication. It is desirable that the candidate has practical knowledge and experience in Matlab/Python/C++/C# programming, LabView, Ansys, Solidworks, and/or COMSOL. Data analysis software like origin or JMP will be valued for the position. Excellent communication skills (verbal, presentation, and writing in English) are required to enable effective interaction with program managers, technical peers, scholars, and sponsors. Expected Start Time: January, 2018. Candidates should apply online on the administration website (, and send their CVs and letters of motivation to

Selected Publications

  • Qin, J. Dong, and Y-S Lee. “Fabrication and electrical characterization of multi-layer capacitive touch sensors on flexible substrates by additive e-jet printing.” Journal of Manufacturing Processes (2017).
  • Qin, Y. Cai, J. Dong, and Y-S. Lee, “Direct Printing of Capacitive Touch Sensors on Flexible Substrates by Additive E-Jet Printing With Silver Nanoinks.” Journal of Manufacturing Science and Engineering 139.3: 031011, 2017.
  • Qin, C. Wei, J. Dong, and Y-S. Lee, “Direct Printing and Electrical Characterization of Conductive Micro-Silver Tracks by Alternating Current-Pulse Modulated Electrohydrodynamic Jet Printing.” Journal of Manufacturing Science and Engineering 139.2: 021008, 2017.
  • Qin, J. Dong, and Y-S. Lee. “AC-Pulse Modulated Electrohydrodynamic Jet Printing and Electroless Copper Deposition for Conductive Microscale Patterning on Flexible Insulating Substrates.” Robotics and Computer-Integrated Manufacturing, In Press, Available online November 6th 2015, ISSN 0736-5845.
  • Wei, H. Qin, N. A. Ramirez-lglesias, C-P. Chiu, Y-S. Lee, and J. Dong, “High-Resolution AC-Pulse Modulated Electrohydrodynamic Jet Printing on Highly Insulating Substrates”, Journal of Micromechanics and Microengineering, 24(4), 045010 (9pp), 2014.
  • C. Wei, H. Qin, C-P. Chiu, Y-S. Lee, and J. Dong, “Drop-on-Demand E-Jet Printing of Continuous Interconnects with AC-Pulse Modulation on Highly Insulating Substrates”, Journal of Manufacturing Systems, ISSN 0278-6125, 2014.


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