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Leppäniemi, Jaakko
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (11/11 displayed)
- 2020Printed, Highly Stable Metal Oxide Thin-Film Transistors with Ultra-Thin High-κ Oxide Dielectriccitations
- 2020Printed, Highly Stable Metal Oxide Thin-Film Transistors with Ultra-Thin High-κ Oxide Dielectriccitations
- 2015Gravure printed sol-gel derived AlOOH hybrid nanocomposite thin films for printed electronicscitations
- 2015Gravure printed sol-gel derived AlOOH hybrid nanocomposite thin films for printed electronicscitations
- 2014Sintering of inkjet printed silver tracks with boiling salt watercitations
- 2014Modelling of printable metal-oxide TFTs for circuit simulation
- 2012Water-based carbon-coated copper nanoparticle fluid:Formation of conductive layers at low temperature by spin coating and inkjet depositioncitations
- 2012Water-based carbon-coated copper nanoparticle fluidcitations
- 2010Substrate-facilitated nanoparticle sintering and component interconnection procedurecitations
- 2010Electrical Sintering of Conductor Grids for Optoelectronic Devices
- 2010Printable WORM and FRAM memories and their applications
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document
Modelling of printable metal-oxide TFTs for circuit simulation
Abstract
This paper focuses on circuit simulation for thin film transistors that can be based on organic or inorganic metal-oxide materials and fabricated using solution processing such as printing or using the more conventional methods such as sputtering. In particular, the paper focuses on solution processed metal oxides. Existing compact device models are generalized in the article to include AC properties and statistical variations. Simulation results for a four-transistor flip-flop circuit are compared against measured characteristics to verify model predictions. The simulation tools will serve in building more complicated analogue and digital printed circuits.