Silver nanowire network embedded in polydimethylsiloxane as stretchable, transparent, and conductive substrates

Kim JinHoon; Park Jaeyoon; Jeong Unyong; Park Jin-Woo

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Silver nanowire network embedded in polydimethylsiloxane as stretchable, transparent, and conductive substrates

机译：嵌入聚二甲基硅氧烷中的银纳米线网络可拉伸，透明和导电

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Highly stretchable transparent conductors where Ag nanowire networks (AgNWs) are reliably embedded into a polydimethylsiloxane (PDMS) substrate are presented. In spite of the weak physical and chemical interaction between Ag nanowires and PDMS, a significantly high transfer efficiency and uniform embedding of AgNW percolation mesh electrodes into PDMS was achieved by simply coating aerogels onto the AgNWs and using water-assisted transfer. By the failure-free transfer and reliable bonding with the substrate, the conductive PDMS with embedded AgNWs that exhibits a sheet resistance (R-s) of 15 Omega/sq and 80% optical transmittance (T) are reported here. The PDMS films accommodate tensile strains up to 70% and a cyclic strain of 25% for more than 100 cycles, with subsequent R-s values as low as 90 and 27 Omega/sq, respectively. The T of this conductive PDMS is more than 25% higher than that of networks of CNTs, Cu nanowires, and hybrid composites of CNTs and graphene embedded in elastomer films such as PDMS, polyurethane, and Ecoflex. The simple and reproducible fabrication allows the extensive study and optimization of the stretchability of the meanders in terms of humidity, thickness, and substrate. The results provide new insights for designing stretchable electronics. (C) 2016 Wiley Periodicals, Inc.

机译：提出了高度可拉伸的透明导体，其中将Ag纳米线网络（AgNW）可靠地嵌入到聚二甲基硅氧烷（PDMS）衬底中。尽管Ag纳米线与PDMS之间的物理和化学相互作用较弱，但通过将气凝胶简单地涂覆在AgNWs上并使用水辅助转移，可以实现很高的转移效率和AgNW渗滤网电极均匀地嵌入PDMS中。通过无故障转移和与基板的可靠粘合，这里报道了具有嵌入式AgNW的导电PDMS，其表现出的薄层电阻（R-s）为15 Omega / sq和80％的透光率（T）。 PDMS薄膜在100个以上的循环中可承受高达70％的拉伸应变和25％的循环应变，其后的Rs值分别低至90和27 Omega / sq。这种导电PDMS的T比CNT，Cu纳米线以及嵌入弹性体膜（例如PDMS，聚氨酯和Ecoflex）中的CNT与石墨烯的混合复合物的网络的T高25％以上。简单且可复制的制造方法可以对湿度，厚度和基材方面的曲折拉伸性进行广泛的研究和优化。结果为设计可伸缩电子提供了新的见解。（C）2016威利期刊公司

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《Journal of Applied Polymer Science》 |2016年第34期|共7页
作者
Kim JinHoon; Park Jaeyoon; Jeong Unyong; Park Jin-Woo;
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coatings; mechanical properties; nanoparticles; nanowires and nanocrystals; properties and characterization; surfaces and interfaces;

机译：涂层;力学性能;纳米颗粒;纳米线和纳米晶体;性能和表征;表面和界面;

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1. Silver nanowire network embedded in polydimethylsiloxane as stretchable, transparent, and conductive substrates [J] . Kim JinHoon, Park Jaeyoon, Jeong Unyong, Journal of Applied Polymer Science . 2016,第33a34期

机译：嵌入聚二甲基硅氧烷中的银纳米线网络可拉伸，透明和导电
2. Uniform,Highly Conductive,and Patterned Transparent Films of a Percolating Silver Nanowire Network on Rigid and Flexible Substrates Using a Dry Transfer Technique [J] . Anuj R.Madaria, Akshay Kumar, Fumiaki N.Ishikawa, 纳米研究：英文版 . 2010,第008期

机译：使用干转移技术在刚性和柔性基板上渗透银纳米线网络的均匀性，高导电和图案化的透明薄膜
3. Core-shell structured graphene sphere-silver nanowire hybrid filler embedded polydimethylsiloxane nanocomposites for stretchable conductor [J] . Oh Jae Young, Lee Dongju Nanotechnology . 2019,第44期

机译：核 - 壳结构石墨烯球形光子 - 银纳米线杂交填料嵌入式聚二甲基硅氧烷纳米复合材料用于可拉伸导体
4. ULTRAFAST LASER ABLATION OF TRANSPARENT CONDUCTIVE SILVER NANOWIRE THIN FILM ON POLYETHYLENE TEREPHTHALATE SUBSTRATE [C] . Laurie Wipliez, Leo Lebrun, Rainer Kling, ICALEO Congress . 2015

机译：透明导电银纳米线薄膜在聚对苯二甲酸乙二醇酯基材上的超快激光消融
5. Laser Processed Silver Nanowire Network Transparent Electrodes for Novel Electronic Devices. [D] . Spechler, Joshua Allen. 2016

机译：用于新型电子设备的激光处理的银纳米线网络透明电极。
6. Flexible Transparent Conductive Film Based on Random Networks of Silver Nanowires [O] . Hui Xie, Xing Yang, Dexi Du, 2018

机译：基于银纳米线随机网络的柔性透明导电膜
7. Uniform, highly conductive, and patterned transparent films of a percolating silver nanowire network on rigid and flexible substrates using a dry transfer technique [O] . Anuj R. Madaria, Akshay Kumar, Fumiaki N. Ishikawa, 2010

机译：使用干转移技术在刚性和柔性基板上形成渗流性银纳米线网络的均匀，高导电性和图案化的透明薄膜

Silver nanowire network embedded in polydimethylsiloxane as stretchable, transparent, and conductive substrates

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