Data di Pubblicazione:
2017
Abstract:
Non-volatile memories—providing the information storage functionality—are crucial circuit
components. Solution-processed organic ferroelectric memory diodes are the non-volatile
memory candidate for flexible electronics, as witnessed by the industrial demonstration
of a 1 kbit reconfigurable memory fabricated on a plastic foil. Further progress, however,
is limited owing to the lack of understanding of the device physics, which is required for the
technological implementation of high-density arrays. Here we show that ferroelectric diodes
operate as vertical field-effect transistors at the pinch-off. The tunnelling injection and charge
accumulation are the fundamental mechanisms governing the device operation. Surprisingly,
thermionic emission can be disregarded and the on-state current is not space charge limited.
The proposed model explains and unifies a wide range of experiments, provides important
design rules for the implementation of organic ferroelectric memory diodes and predicts an
ultimate theoretical array density of up to 1012 bit cm^-2.
components. Solution-processed organic ferroelectric memory diodes are the non-volatile
memory candidate for flexible electronics, as witnessed by the industrial demonstration
of a 1 kbit reconfigurable memory fabricated on a plastic foil. Further progress, however,
is limited owing to the lack of understanding of the device physics, which is required for the
technological implementation of high-density arrays. Here we show that ferroelectric diodes
operate as vertical field-effect transistors at the pinch-off. The tunnelling injection and charge
accumulation are the fundamental mechanisms governing the device operation. Surprisingly,
thermionic emission can be disregarded and the on-state current is not space charge limited.
The proposed model explains and unifies a wide range of experiments, provides important
design rules for the implementation of organic ferroelectric memory diodes and predicts an
ultimate theoretical array density of up to 1012 bit cm^-2.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Chemistry (all); Biochemistry, Genetics and Molecular Biology (all); Physics and Astronomy (all)
Elenco autori:
Ghittorelli, Matteo; Lenz, Thomas; Sharifi Dehsari, Hamed; Zhao, Dong; Asadi, Kamal; Blom, Paul W. M.; KOVACS VAJNA, Zsolt Miklos; De Leeuw, Dago M.; Torricelli, Fabrizio
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