论文信息 - A multilayer coated fiber-based substrate suitable for printed functionality

A multilayer coated fiber-based substrate suitable for printed functionality

A recyclable multilayer coated fiber-based substrate combining sufficient barrier and printability properties for printed functional devices was developed using reel-to-reel techniques. The substrate consists of a mineral pigment layer coated on top of a barrier latex layer. The pigment layer allows controlled absorption of ink solvents. By adjusting the thickness and porosity of the top coating the printability can be tuned for various functional inks. As a proof of concept a hygroscopic insulator field effect transistor (HIFET) was successfully printed on the multilayer-coated paper.

[1] Ronald Österbacka,et al. All-printed low-voltage organic transistors , 2008 .

[2] Ronald Österbacka,et al. Operating principle of polymer insulator organic thin-film transistors exposed to moisture , 2005 .

[3] R. Österbacka,et al. Absence of substrate roughness effects on an all-printed organic transistor operating at one volt , 2008 .

[4] Peter Andersson,et al. Active Matrix Displays Based on All‐Organic Electrochemical Smart Pixels Printed on Paper , 2002 .

[5] Nataliya V. Roznyatovskaya,et al. Conducting polymers in chemical sensors and arrays. , 2008, Analytica chimica acta.

[6] M. Rigdahl,et al. Dispersion coating with carboxylated and cross-linked styrene–butadiene latices: 2. Effects of substrate and polymer characteristics on the properties of coated paperboard , 2004 .

[7] Y. Chen,et al. Ultra-thin, high-resolution, flexible electronic ink displays addressed by a-Si active-matrix TFT backplanes on stainless steel foil , 2002, Digest. International Electron Devices Meeting,.

[8] Ronald Österbacka,et al. High‐Performance All‐Polymer Transistor Utilizing a Hygroscopic Insulator , 2004 .

[9] A. Karlsson,et al. Characteristics of pigment-filled polymer coatings on paperboard , 2005 .