Direct writing technique to build microano structures for flexible electronics and bioengineerings shows unique advantages of simplicity, fast and low cost et al. In order to address its problems of high fluid transport resistance in the pipeline, blockage in nozzle and slow responses speed, the rod-climbing effect is introduced to direct writing using a micro-channel and a rotation shaft within the channel as nozzle to pump the fluid. The solution flow rate of this nozzle was studied without applied voltage and the line width could be controlled by changing rotation speed. The response time of liquid supply can reach 0.3 s with rotation speed changed from 500 r/min to 9000 r/min, which is much smaller than that of the traditional syringe pump. Furthermore, when applied with a high voltage, nanoscale wires were obtained. Thus, such direct writing with Weissenberg effect might be of a great potential for rapid manufacturing flexible electronic in the future.
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机译:直接书写技术为柔性电子和生物工程构建微/纳米结构显示出简单,快速和低成本等独特优势。为了解决其在管道中的高流体传输阻力,喷嘴堵塞和响应速度慢的问题,引入了杆爬升效应,以使用微通道和通道内的旋转轴作为喷嘴来直接书写以直接书写。体液。在没有施加电压的情况下研究了该喷嘴的溶液流量,并且可以通过改变转速来控制线宽。转速从500 r / min变为9000 r / min时,液体供应的响应时间可达到0.3 s,这比传统的注射泵要小得多。此外,当施加高电压时,获得纳米级线。因此,这种具有魏森伯格效应的直接书写在未来快速制造柔性电子方面可能具有巨大的潜力。
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