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The combination of organic semiconductors and emerging
solution-dispersible metal and metal oxide nanoparticles
and nanowires enables the fabrication of electronic devices that are fully built from solution. This establishes a new
device-processing platform that, in turn allows integration of functionality in systems not feasible in any
conventional semiconductor technology. Examples of novel applications and systems enabled by this include:
large-area, ultra light and flexible power harvesting,
logic-integrated sensing and memory technologies. In this
paper we discuss the use of organic Thin Film Transistors (TFTs) based on printed solution-processed materials for
displays and memory applications. Polarizable solution-processed dielectrics and polymer semiconductors were
integrated in the fabrication of non-volatile analog memory arrays. The stability of memory TFTs over 7 days was
studied and characterized, and a stable process to achieve all printed TFTs is presented.
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Ana Claudia Arias, Tse Nga Ng, Gregory L. Whiting, Jürgen Daniel, "Printed thin film transistor: materials and applications," Proc. SPIE 8117, Organic Field-Effect Transistors X, 81170Y (7 September 2011); https://doi.org/10.1117/12.894182