PVP a binder for the manufacture of ultrathin ITO/polymer nanocomposite films with improved electrical conductivity

Wegener Moritz; Kato Minato; Kakimoto Ken-ichi; Spallek Stefanie; Spiecker Erdmann; Roosen Andreas

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PVP a binder for the manufacture of ultrathin ITO/polymer nanocomposite films with improved electrical conductivity

机译：PVP粘合剂，用于制造具有改善的导电性的超薄ITO /聚合物纳米复合薄膜

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This paper presents the manufacture of ultrathin (< 1 A mu m) transparent conductive indium tin oxide (ITO) films based on nanoparticulate ITO slurries by the profile rod technique using the binder polyvinyl pyrrolidone (PVP) as an organic additive. The influence of the slurry composition on the film thickness and the specific electrical resistance as well as the transmission of the dried films is evaluated. The organic solvent ethanol and different types of the PVP binder were tested for slurry preparation and layer performance. ITO green films with low specific electrical resistance of 3 Omega cm, 87 % inline transmission, and layer thicknesses of only 250 nm could be manufactured. Furthermore, the influence of heat treatments up to 400 A degrees C on the electrical properties of the ITO films was evaluated.

机译：本文介绍了通过轮廓棒技术，使用粘合剂聚乙烯吡咯烷酮（PVP）作为有机添加剂，基于纳米微粒ITO浆料制造超薄（<1 Aμm）透明导电铟锡氧化物（ITO）薄膜的方法。评估浆料组合物对膜厚度和电阻率以及干燥膜的透射率的影响。测试了有机溶剂乙醇和不同类型的PVP粘合剂的浆料制备和层性能。可以制造具有3Ωcm的低电阻率，87％的在线透射率和仅250 nm的层厚度的ITO绿膜。此外，评估了高达400 A的热处理对ITO膜电性能的影响。

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《Journal of Materials Science》 |2015年第18期|共10页
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Wegener Moritz; Kato Minato; Kakimoto Ken-ichi; Spallek Stefanie; Spiecker Erdmann; Roosen Andreas;
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1. PVP a binder for the manufacture of ultrathin ITO/polymer nanocomposite films with improved electrical conductivity [J] . Moritz Wegener, Minato Kato, Ken-ichi Kakimoto, Journal of Materials Science . 2015,第18期

机译：PVP粘合剂，用于制造具有改善的导电性的超薄ITO /聚合物纳米复合薄膜
2. Surface electrical conductivity in ultrathin single-wall carbon nanotube/polymer nanocomposite films [J] . Valery Bliznyuk, Srikanth Singamaneni, Ramesh Kattumenu, Applied Physics Letters . 2006,第16期

机译：超薄单壁碳纳米管/聚合物纳米复合薄膜的表面电导率
3. Dielectric dispersion and electrical conductivity of amorphous PVP–SiO2 and PVP–Al2O3 polymeric nanodielectric films [J] . Choudhary Shobhna, Dhatarwal Priyanka, Sengwa R J Indian journal of chemical technology . 2020,第3期

机译：无定形PVP-SiO2和PVP-Al2O3聚合物纳米电膜的介电分散和电导率
4. Influence of heating temperature on electrical photoconductivity of nanocomposited polymer-Tio2 thin films for organic photovoltaic [C] . Zahid F. S. S., Sarah M. S. P., Noor U. M., 2012 10th IEEE International Conference on Semiconductor Electronics. . 2012

机译：加热温度对有机光伏用纳米复合聚合物-TiO 2薄膜电导率的影响
5. Carbon nanotubes filled polymer composites: A comprehensive study on improving dispersion, network formation and electrical conductivity. [D] . Chakravarthi, Divya Kannan. 2010

机译：碳纳米管填充的聚合物复合材料：改善分散性，网络形成和导电性的综合研究。
6. Effect of Surfactant Type and Sonication Energy on the Electrical Conductivity Properties of Nanocellulose-CNT Nanocomposite Films [O] . Sanna Siljander, Pasi Keinänen, Anna Räty, 2018

机译：表面活性剂类型和超声能对纳米纤维素-CNT纳米复合薄膜电导性能的影响
7. Ambient-Temperature Waterborne Polymer/rGO Nanocomposite Films: Effect of rGO Distribution on Electrical Conductivity [O] . -1

机译：环境温度水性聚合物/ rgo纳米复合膜：RGO分布对电导率的影响
8. Responsive Plasma Polymerized Ultrathin Nanocomposite Films. [R] . Anderson, K. D., Weber, R. B., McConney, M. E., 2012

机译：响应性等离子体聚合超薄纳米复合薄膜。

PVP a binder for the manufacture of ultrathin ITO/polymer nanocomposite films with improved electrical conductivity

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