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Tunnel electroresistance through organic ferroelectrics

by Dkhil, B. , Wang, J. L. , Fusil, S. , Liu, Y. , Sun, J. L. , Tian, B. B. , Zhao, X. L. , Sun, S. , Lin, T. , Meng, X. J. , Duan, C. G. , Chu, J. H. , Bibes, M. , Barthélémy, A. , Garcia, V. , Shen, H.

in 142/126 / 639/301/119/996 / 639/766/25 / 639/925 / Condensed Matter / Ferroelectrics / Humanities and Social Sciences / Materials Science / multidisciplinary / Photovoltaics / Physics / Science / Science (multidisciplinary)

2016

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2016

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Tunnel electroresistance through organic ferroelectrics

2016

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Journal Article

Tunnel electroresistance through organic ferroelectrics

Dkhil, B.,

Wang, J. L.,

Fusil, S.,

Liu, Y.,

Sun, J. L.,

Tian, B. B.,

Zhao, X. L.,

Sun, S.,

Lin, T.,

Meng, X. J.,

Duan, C. G.,

Chu, J. H.,

Bibes, M.,

Barthélémy, A.,

Garcia, V.,

Shen, H.

2016

Overview

Organic electronics is emerging for large-area applications such as photovoltaic cells, rollable displays or electronic paper. Its future development and integration will require a simple, low-power organic memory, that can be written, erased and readout electrically. Here we demonstrate a non-volatile memory in which the ferroelectric polarisation state of an organic tunnel barrier encodes the stored information and sets the readout tunnel current. We use high-sensitivity piezoresponse force microscopy to show that films as thin as one or two layers of ferroelectric poly(vinylidene fluoride) remain switchable with low voltages. Submicron junctions based on these films display tunnel electroresistance reaching 1,000% at room temperature that is driven by ferroelectric switching and explained by electrostatic effects in a direct tunnelling regime. Our findings provide a path to develop low-cost, large-scale arrays of organic ferroelectric tunnel junctions on silicon or flexible substrates. Ferroelectric organic materials can be used for tunnel barriers in memory devices as a cheaper and eco-friendly replacement of their inorganic counterparts. Here, Tian et al . use poly(vinylidene fluoride) with 1–2 layer thickness to achieve giant tunnel electroresistance of 1,000% at room temperature.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

/ 639/925

/ Humanities and Social Sciences