Electroless Deposition of Silver Nanowires Using Waste Ethylene Glycol for Highly Transparent Flexible Conducting Electrodes

机译：银纳米线的无电沉积使用废乙二醇用于高度透明的柔性导电电极

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High aspect ratio silver nanowires (AgNWs) with an average length of 40 urn and average diameter of 88 nm were successfully synthesized using waste ethylene glycol as solvent and reducing agent. Silver nanowires with an average length and diameter of 32 urn and 122 nm, were produced after the third cycle of being reused. A transparent conducting film with a sheet resistance of 69 Ω/sq and optical transmittance of 91% was fabricated by Meyer rod coating an ink formulation of AgNWs dispersed in hydroxyethyl celullose (HEC)/methanol/deionized water. The low resistance of the AgNW networks was maintained even after 1000 bending cycles due to HEC acting as binder for the nanowires. The AgNW-HEC transparent conductive electrode performed better than bare AgNWs and indium tin oxide (ITO) on polyethylene terephthalate (PET) substrate after several bending cycles. The AgNW-HEC electrode also showed excellent stability against corrosion.

机译：使用废乙二醇作为溶剂和还原剂，成功地合成了平均长度为40瓮和平均直径为88nm的银纳米线（AgNW）。在重复使用的第三个循环后，生产平均长度和直径为32瓮和122nm的银纳米线。通过Meyer棒涂层制造具有69Ω/ Sq的透明导电膜，具有91％的光学透射率为91％的透射膜，其分散在羟乙基甜菜（HEC）/甲醇/去离子水中的AgNW的油墨制剂。由于HEC作为纳米线的粘合剂而导致10000次弯曲循环，因此保持AGNW网络的低电阻。在几次弯曲循环之后，在聚对苯二甲酸乙二醇酯（PET）底物上的裸Agnws和氧化铟锡（ITO）表现优于裸Agnws和氧化铟锡（ITO）。 AgNW-HEC电极还表现出优异的抗腐蚀稳定性。

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《International Conference on Key Engineering Materials》|2018年|xiii646p|共6页
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Nathaniel De Guzman; Mary Donnabelle L. Balela;
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中图分类 TB3-532;
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Silver nanowires; Transparent conducting films; Ethylene glycol; Optical transmittance; Sheet resistance;

机译：银纳米线;透明导电薄膜;乙二醇;光学透射率;薄层电阻;

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1. Growth of Ultralong Ag Nanowires by Electroless Deposition in Hot Ethylene Glycol for Flexible Transparent Conducting Electrodes [J] . Nathaniel de Guzman, Mary Donnabelle L. Balela Journal of nanomaterials . 2017,第Pta4期

机译：柔性透明电极中热乙二醇中的无电沉积在柔性透明电极中的电磁沉积的增长
2. Highly Conducting MXene-Silver Nanowire Transparent Electrodes for Flexible Organic Solar Cells [J] . Tang Honghao, Feng Huanran, Wang Huike, ACS applied materials & interfaces . 2019,第28期

机译：用于柔性有机太阳能电池的高导电薄膜银纳米线透明电极
3. Silver Nanowire-Transparent Conducting Oxide-Conducting Polymer Hybrids for Flexible and Transparent Conductive Electrodes for Organic Light Emitting Dodes [J] . Ho Jun Yun, Ju Hyun Hwang, Sun-Gyu Jung, SID International Symposium: Digest of Technology Papers . 2016,第3期

机译：用于有机发光二极管的柔性和透明导电电极的银纳米线-透明导电氧化物导电聚合物杂化物
4. Electroless Deposition of Silver Nanowires Using Waste Ethylene Glycol for Highly Transparent Flexible Conducting Electrodes [C] . Nathaniel De Guzman, Mary Donnabelle L. Balela International Conference on Key Engineering Materials . 2018

机译：银纳米线的无电沉积使用废乙二醇用于高度透明的柔性导电电极
5. Highly Conductive Silver Flake/nanowire Composites Inks and 3D Printing Processing in Flexible Electrodes Application [D] . Meng, Yuhuan. 2018

机译：高导电性银鳞片/纳米线复合油墨和3D打印工艺在柔性电极中的应用
6. Silver Nanowire-IZO-Conducting Polymer Hybrids for Flexible and Transparent Conductive Electrodes for Organic Light-Emitting Diodes [O] . Ho Jun Yun, Se Jung Kim, Ju Hyun Hwang, -1

机译：用于有机发光二极管的柔性和透明导电电极的银纳米线-IZO导电聚合物杂化物
7. Growth of Ultralong Ag Nanowires by Electroless Deposition in Hot Ethylene Glycol for Flexible Transparent Conducting Electrodes [O] . Nathaniel de Guzman, Mary Donnabelle L. Balela 2017

机译：柔性透明导电电极在热乙二醇中通过无电沉积的超强Ag纳米线的生长

Electroless Deposition of Silver Nanowires Using Waste Ethylene Glycol for Highly Transparent Flexible Conducting Electrodes

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