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Surface Charge Reversal Method for High-Resolution Inkjet Printing of Functional Water-Based Inks

机译:功能性水性油墨高分辨率喷墨印刷的表面电荷逆转方法

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摘要

Printed electronics is a rapidly growing area of research being explored for the manufacture of large-area and cost-effective electronic devices by the patterned application of functional inks. There are challenges associated with processing the inks compatible with inkjet printing technology and developing efficient methods to successfully obtain the desired features, particularly when it comes to metal and metal-organic complex inks. Here, a reliable method is developed to achieve a sophisticated microstructured pattern using the inkjet printing technique assisted by a surface charge reversal effect. In addition, a procedure is formulated to obtain good quality, stable metal-organic water-based inks compatible with salts of a variety of transition metals and rare earths, without the need for additional volatile solvents. A feasible and water-based ink formulation combined with a simple and noninvasive surface charge reversal treatment constitutes a major step toward the manufacture of high-resolution, inorganic patterned thin films on hydrophobic substrates using inkjet printing. These outcomes lead to the path of effective fusion of inorganic and organic heterointerfaces by simples designing and printing.
机译:印刷电子学是一个快速发展的研究领域,正在通过功能性油墨的图案化应用来研究制造大面积且具有成本效益的电子设备。与处理与喷墨印刷技术兼容的油墨以及开发有效地方法以成功获得所需特征有关的挑战面临着挑战,特别是在涉及金属和金属有机复合油墨时。在此,开发了一种可靠的方法,以利用借助表面电荷反转效应辅助的喷墨印刷技术来获得复杂的微结构化图案。此外,制定了一种程序,可在不需其他挥发性溶剂的情况下,获得与各种过渡金属和稀土盐兼容的高质量,稳定的金属-有机水基油墨。可行的水基油墨配方与简单且无创的表面电荷逆转处理相结合,是迈向使用喷墨印刷在疏水性基材上制造高分辨率,无机图案化薄膜的重要一步。这些成果通过简单的设计和印刷,导致了无机和有机异质界面的有效融合。

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  • 来源
    《Advanced Functional Materials》 |2015年第5期|768-775|共8页
  • 作者

    Raiden Cobas; Susset Munoz-Perez; Sean Cadogan; Mark C. Ridgway; Xavier Obradors;

  • 作者单位

    School of Physical, Environmental and Mathematical Sciences University of New South Wales Canberra, ACT 2610, Australia;

    School of Physical, Environmental and Mathematical Sciences University of New South Wales Canberra, ACT 2610, Australia;

    School of Physical, Environmental and Mathematical Sciences University of New South Wales Canberra, ACT 2610, Australia;

    Department of Electronic Materials Engineering Research School of Physics and Engineering Australian National University Canberra, ACT 0200, Australia;

    Institut de Ciencia de Materials de Barcelona (ICMAB-CSIC) Universitat Autonoma de Barcelona E-08193, Bellaterra, Spain;

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