Flexible active-matrix displays and shift registers based on solution-processed organic transistors

• Published in: Nature materials Vol. 3; no. 2; pp. 106 - 110
• Main Authors: Gelinck, Gerwin H, Huitema, H. Edzer A, van Veenendaal, Erik, Cantatore, Eugenio, Schrijnemakers, Laurens, van der Putten, Jan B. P. H, Geuns, Tom C. T, Beenhakkers, Monique, Giesbers, Jacobus B, Huisman, Bart-Hendrik, Meijer, Eduard J, Benito, Estrella Mena, Touwslager, Fred J, Marsman, Albert W, van Rens, Bas J. E, de Leeuw, Dago M
• Format: Journal Article
• Language: English
• Published: England Nature Publishing Group 01.02.2004
• Subjects: Biocompatible Materials; Transistors, Electronic
• ISSN: 1476-1122; 1476-4660
• DOI: 10.1038/nmat1061

At present, flexible displays are an important focus of research. Further development of large, flexible displays requires a cost-effective manufacturing process for the active-matrix backplane, which contains one transistor per pixel. One way to further reduce costs is to integrate (part of) the display drive circuitry, such as row shift registers, directly on the display substrate. Here, we demonstrate flexible active-matrix monochrome electrophoretic displays based on solution-processed organic transistors on 25-μm-thick polyimide substrates. The displays can be bent to a radius of 1 cm without significant loss in performance. Using the same process flow we prepared row shift registers. With 1,888 transistors, these are the largest organic integrated circuits reported to date. More importantly, the operating frequency of 5 kHz is sufficiently high to allow integration with the display operating at video speed. This work therefore represents a major step towards 'system-on-plastic'.