课题组设计了具有纳米尺度结构制备能力的电射流打印平台,平台由X-Y轴移动平台、高倍显微镜、高压电源、移动控制系统和流量控制系统构成。其结构如图所示,该设备能够打印微米和纳米尺度直线和点阵结构。该研究成果已发表3篇SCI论文。
参考文献:
1. Wu W., Yang X., Liu R., Yin Z., Wang D.F., Zou H., Hu W., Li L., A novel room-temperature bonding method based on Electrohydrodynamic printing, Journal of Nanoscience and Nanotechnology, 2020.
2. Yang X., Jiang X., Yin Z., Chen K., Cheng E., Zou H., Wang D.F., An economic and concise method to solve nozzle clogging issue during electro hydrodynamic printing, International Journal of Modern Physics B, 2019, 33(23), 1950260.
3. Wang J., Yin Z., SU-8 nano-nozzle fabrication for electrohydrodynamic jet printing using UV photolithography, Materials Science in Semiconductor Processing, 2018, 84, 144-150.