Bioinspired transfer method for the patterning of multiple nanomaterials

Wang Xuan; Gao Bingbing; Gu Zhongze

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Bioinspired transfer method for the patterning of multiple nanomaterials

机译：用于多纳米材料图案化的生物透明传递方法

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Patterned nanomaterials have promising applications in various fields, particularly for microfluidic analysis and functional surfaces. Studies on such materials have focused on developing effective methods for fabricating patterns with various nanomaterials. Here, inspired by pollen transfer by bees, we present a simple and effective method for patterning multiple functional materials onto flexible substrates by using adhesive tapes. With the advantages of high alignment accuracy, high pattern resolution and not requiring additional etching or harsh processes, the proposed method can easily be applied to diverse nanomaterials that would not be tolerant of physical, thermal, or chemical treatments, as such treatments could deform the thin film and alter its functionalities. Patterned devices were fabricated and showed excellent performance, demonstrating the applicability of this simple and practical transfer printing technique. The proposed patterning method possesses the distinct advantages of a short operating time and high patterning yield, which highlight the considerable potential for the application of this method for optical and biomedical devices.

机译：图案化的纳米材料在各种领域具有有希望的应用，特别是对于微流体分析和功能表面。对这些材料的研究重点是开发具有各种纳米材料的制造图案的有效方法。这里，受蜜蜂的花粉转移的启发，我们通过使用胶带来提出一种简单有效的方法，用于通过使用胶带将多功能材料进行图案化到柔性基板上。凭借高对准精度的优点，高图案分辨率并且不需要额外的蚀刻或恶劣工艺，可以容易地应用于不同的纳米材料，这些方法不能耐受物理，热或化学处理，因为这种治疗可以变形薄膜并改变其功能。制造了图案化器件，表现出优异的性能，展示了这种简单实用的转移印刷技术的适用性。所提出的图案化方法具有短操作时间和高图案化产量的独特优点，这突出了应用该方法对光学和生物医学装置的相当大的潜力。

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《RSC Advances》 |2019年第8期|共10页
作者
Wang Xuan; Gao Bingbing; Gu Zhongze;
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Nanjing Tech Univ Coll Safety Sci &

Engn Nanjing 210009 Peoples R China;

Nanjing Tech Univ Sch Pharmaceut Sci Nanjing 211816 Jiangsu Peoples R China;

Southeast Univ State Key Lab Bioelect Sch Biol Sci &

Med Engn Nanjing 210096 Jiangsu Peoples R China;

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正文语种 eng
中图分类化学;
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1. Bioinspired transfer method for the patterning of multiple nanomaterials [J] . Wang Xuan, Gao Bingbing, Gu Zhongze RSC Advances . 2019,第8期

机译：用于多纳米材料图案化的生物透明传递方法
2. Development of a testing methodology to quantify bone load transfer patterns for multiple stemmed implants in a single bone with an application in the distal ulna. [J] . Austman RL, Quenneville CE, Beaton BJ, Journal of biomechanical engineering. . 2008,第2期

机译：开发一种测试方法以量化尺骨远端的应用，从而量化单个骨骼中多个茎状植入物的骨负荷转移模式。
3. Development of a testing methodology to quantify bone load transfer patterns for multiple stemmed implants in a single bone with an application in the distal ulna [J] . Austman RL, Quenneville CE, Beaton BJB, Journal of biomechanical engineering. . 2008,第2期

机译：开发一种测试方法以量化单个骨中多个茎状植入物的骨负荷转移模式，并应用于尺骨远端
4. Direct single-step micromolding method for patterning of various nanomaterials [C] . Radha B., Kulkarni G.U. Nanoelectronics Conference (INEC), 2010 . 2010

机译：直接单步微成型方法对各种纳米材料进行构图
5. Self-assembly of composite semiconductor nanomaterials: Applications in patterning and photoinduced electron transfer processes. [D] . Hoth, Ruth Mistretta. 2006

机译：复合半导体纳米材料的自组装：在图案化和光致电子转移过程中的应用。
6. Quality and utilization patterns of maternity waiting homes at referral facilities in rural Zambia: A mixed-methods multiple case analysis of intervention and standard of care sites [O] . Rachael Bonawitz, Kathleen L. McGlasson, Jeanette L. Kaiser, 2019

机译：赞比亚农村推荐设施的产妇等待住宅的质量和利用模式：一种混合方法的干预措施和护理地点标准分析
7. Depth/Azimuth-Resolved Multiple-XRD Patterns for Nanomaterials [O] . Bentham Science Publisher Bentham Science Publisher 2012

机译：用于纳米材料的深度/方位角分辨多XRD图案

Bioinspired transfer method for the patterning of multiple nanomaterials

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