通过电流体动力直接写入的图案可拉伸微纳薄膜

2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale Pub Date : 2013-08-01 DOI:10.1109/3M-NANO.2013.6737379

Jin Wei, Jianyi Zheng, G. Zheng, Xiang Wang, Guangqi He, Haiyan Liu, Daoheng Sun, Juan Liu

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引用次数: 1

摘要

将机械拉伸力引入到电液直写(EDW)过程中。研究了机械拉伸对EDW射流流变学和沉积行为的影响。EDW运动平台产生的拉伸影响为带电射流提供了额外的力。施加较大的拉伸力对克服弯曲不稳定性起到了很好的作用，使射流拉伸成更细的射流。由于喷丝板与收集器之间的距离较短，机械拉伸力在射流形成过程中起着更重要的作用。利用拉伸效应，可以避免带电射流的振荡，实现无曲线结构的微纳薄膜直接写入集热器上。随着集电极运动速度的增加，微纳薄膜的线宽和厚度会减小。在EDW过程中，机械拉伸力为控制EDW微纳薄膜的形貌和沉积模式提供了一个很好的方面。

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Pattern stretchable micro-nano thin film via Electrohydrodynamic Direct-Writing

In this paper, mechanical stretching force is introduced into the Electrohydrodynamic Direct-Write (EDW) process. The effects of mechanical stretching on the rheology and deposition behaviors of EDW jet were investigated. The stretching affects that stemmed from the EDW motion platform provided an extra force on the charged jet. The larger stretching force applied on the jet played a good role to overcome bending instability, and stretch the jet into finer ones. Since the short distance between spinneret and collector, the mechanical stretching force acted more important role on the jet formation process. Thanks to the stretching effect, the whipping of charged jet can be avoided and micro/nano thin film without curve structure can be direct-written on the collector. With increasing collector motion velocity, the line width and thickness of micro/nano thin film will be decreased. During the EDW process, the mechanical stretching force had provided an excellent aspect to control the morphology and deposition pattern of EDWed micro/nano thin film.

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2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale

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