Journal Papers

Li, Kai

Wang, Dazhi(d.wang@dlut.edu.cn)

Madou, Marc,Wang, Dazhi,Yi, Shanshan,Jia, Haoran,Qian, Jianghong,Du, Zhiyuan,Ren, Tongqun,Liang, Junsheng,Martinez-Chapa, Sergio O.

2019-11-01

Review of Scientific Instruments

EI

J

90

11

00346748

In this work, an instrument of drop-on-demand electrohydrodynamic jet (DoD E-Jet) printing device equipped with a current measurement and control system was designed and developed for finely controlling the printing process. The relationships between the current and printing parameters of voltage, frequency, and flow rate were deeply investigated, and the examination data and conclusion were obtained under the condition of the needle size remaining unchanged. Especially, the equation relationship between the flow rate and current was established, which can be used for the modification of the DoD E-Jet printing process. The map describing the stable printing range, droplet size, and current was also recognized, which can help us to select parameters for stable printing. Based on the current measurement and control system and the established relationship, the optimized current and printing parameters were chosen to print uniform graphene microstructures. This instrument provides an effective method for monitoring, adjusting, and controlling the DoD E-Jet printing process and further improving the quality of the printed structures for micro/nanoelectromechanical system (M/NEMS) devices. ? 2019 Author(s).