Engineered ferroelectric gate devices

Jonathan E Spanier; Gu Zongquan; Islam Mohammad Anwarul

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Engineered ferroelectric gate devices

Jonathan E Spanier, Gu Zongquan and Islam Mohammad Anwarul

20 Feb 2018

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Abstract

BASIC ELECTRIC ELEMENTS

ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR

ELECTRICITY

SEMICONDUCTOR DEVICES

Coupling of switchable ferroelectric polarization with the carrier transport in an adjacent semiconductor enables a robust, non-volatile manipulation of the conductance in a host of low-dimensional systems, including the two-dimensional electron liquid that forms at the LaAlO3-SrTiO3 interface. However, the strength of the gate-channel coupling is relatively weak, limited in part by the electrostatic potential difference across a ferroelectric gate. Compositionally grading of PbZr1-xTixO3 ferroelectric gates enables a more than twenty-five-fold increase in the LAO/STO channel conductance on/off ratios. Incorporation of polarization gradients in ferroelectric gates can enable significantly enhanced performance of ferroelectric non-volatile memories.

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Title: Engineered ferroelectric gate devices
Creators: Jonathan E Spanier - Drexel University, Physics
Gu Zongquan
Islam Mohammad Anwarul
Contributors: Drexel University (Assignee)
Resource Type: Patent
Language: English
Patent: US9899516B2; B2
Academic Unit: Mechanical Engineering and Mechanics; Physics
Identifiers: 991021903705604721

Engineered ferroelectric gate devices

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Abstract

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