All-Solid-State Organic Schmitt Trigger Implemented by Twin Two-in-One Ferroelectric Memory Transistors

Authors
Hwang, SunbinJang, SukjaeBae, SukangLee, Seoung-KiLee, Sang HyunFabiano, SimoneBerggren, MagnusLee, TakheeKim, Tae-Wook
Issue Date
2020-05
Publisher
WILEY
Citation
ADVANCED ELECTRONIC MATERIALS, v.6, no.5
Abstract
Although there have been many attempts to replace conventional inorganic electronics with organic materials that can be mass produced at low cost, few organic electronic filters to increase immunity to electrical noise have been reported thus far. Conventional Schmitt triggers or their inverters are used in many electronic circuits as versatile electronic noise filters. However, it is challenging to manufacture organic electronic systems with complex circuitry. In this study, a simple, all-solid-state organic Schmitt trigger consisting of twin two-in-one organic ferroelectric memory transistors with the same chemical compositions and device dimensions but different threshold voltages is introduced. Threshold voltages and hysteresis in the two-in-one devices can be controlled by polarization switching as demonstrated in a previous study. Hysteresis of a ferroelectric p-type depletion load inverter can be achieved using twin two-in-one devices when the sweep voltage is higher than the critical gate voltages. This facilitates inverter characteristics at two different threshold voltages, and realizing a Schmitt trigger. Finally, based on simulation program with integrated circuit emphasis (SPICE) simulation, guidelines are proposed on how to design organic Schmitt triggers with p- or n-type materials and ferroelectric or charge-trapping mechanisms to achieve inverting or non-inverting characteristics.
Keywords
FIELD-EFFECT TRANSISTORS; THIN-FILM; CELLS; ferroelectric memory transistors; organic transistors; poly(vinylidene fluoride-trifluoroethylene); pulse width modulation; Schmitt triggers
ISSN
2199-160X
URI
https://pubs.kist.re.kr/handle/201004/118646
DOI
10.1002/aelm.201901263
Appears in Collections:
KIST Article > 2020
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