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Temperature and Frequency Dependent Characteristics of Amorphous Silicon Thin Film Transistors
(1995)
This paper presents a method which allows to assess the wettability of thermomechanical pulp (TMP) with thermoplastic. The method is based on the usage of laboratory sheets made of TMP and plastic granules which form drops under heat. The contact angle of the drops after re-solidification on the surface of the laboratory sheets serves as the wetting characteristic. This method enables a direct and evaluable testing of wood fiber thermoplastic combinations. The exemplary results indicate that wood species, pulping temperature and mercerization influence the wettability of TMP with thermoplastic.
We describe physically based analytical models for n‐channel amorphous silicon thin film transistors and for n‐ and p‐channel polysilicon thin film transistors. The models cover all regimes of transistor operation: leakage, subthreshold, above‐threshold conduction, and the kink regime in polysilicon thin film transistors. The models contain a minimum number of parameters which are easily extracted and can be readily related to the structural and material properties of the thin film transistors. The models have been verified for a large number of devices to scale properly with device geometry.