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Journal of Materials Science

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28-09-2018 | Electronic materials

Nonvolatile switchable resistive behaviour via organic–inorganic hybrid interactions

Authors: Venkata K. Perla, Sarit K. Ghosh, Kaushik Mallick

Published in: Journal of Materials Science | Issue 3/2019

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Abstract

Organic–inorganic hybrid material, aniline-functionalized bismuth oxide nanoparticles, has been synthesized using a two-step wet-chemical synthesis method and characterized by different optical, microscopy and surface analysis techniques. The material was applied as an active device component to demonstrate the electrical property of the device. The device exhibited a nonvolatile, resistive switching performance with a constant ON–OFF current ratio. The nonvolatile behaviour was confirmed by applying a 6 V of read pulse for 0.1 s after every 60 s with the duty-cycle of 0.16% for 2 × 10³ s. To check the endurance of ‘ON’ and ‘OFF’ states of the system, a bias of 6 V (read pulse) was applied to the device for 0.2 s with a duty-cycle of 50% for 10³ cycles and the device showed the potential for storing and processing the data in a binary approach and differentiate between the ON and OFF states with the ratio of ~ 10². The current–voltage characteristics of the device in both the ON and OFF states are fitted with the Poole–Frenkel emission.

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Guo F, Karl A, Xue Q-F (2017) The fabrication of color-tunable organic light-emitting diode displays via solution processing. Light Sci Appl 6(11):e17094CrossRef

Nunzi J-M (2002) Organic photovoltaic materials and devices. C R Phys 3(4):523–542CrossRef

Torricelli F, Colalongo L, Raiteri D (2016) Ultra-high gain diffusion-driven organic transistor. Nat Commun 7(1):1–9

Scott JC, Bozano LD (2007) Nonvolatile memory elements based on organic materials. Adv Mater 19(11):1452–1463CrossRef

Ling QD, Liaw DJ, Zhu C (2008) Polymer electronic memories: materials, devices and mechanisms. Prog Polym Sci 33(11):917–978CrossRef

Zhang Y, Wang H, Zhang L (2017) Field-effect transistor memories based on ferroelectric polymers. J Semicond 38(11):111001–111012CrossRef

Prime D, Paul S (2009) Overview of organic memory devices. Philos Trans R Soc A Math Phys Eng Sci 367(1905):4141–4157CrossRef

Chen W, Abd-el-aziz AS, Edward P, Craig S (2015) Electrical memory materials and devices. RSC, London. ISBN 978-1-78262-116-4CrossRef

Ouyang J, Chu C-W, Szmanda CR (2004) Programmable polymer thin film and non-volatile memory device. Nat Mater 3(12):918–922CrossRef

10.

Ma L, Pyo S, Ouyang J (2003) Nonvolatile electrical bistability of organic/metal-nanocluster/organic system. Appl Phys Lett 82(9):1419–1421CrossRef

11.

Tseng RJ, Huang J, Ouyang J, Kaner RB (2005) Polyaniline nanofiber/gold nanoparticle nonvolatile memory. Nano 5(5):1077–1080

12.

Prakash A, Ouyang J, Lin J-L, Yang Y (2006) Polymer memory device based on conjugated polymer and gold nanoparticles. J Appl Phys 100(5):054309CrossRef

13.

Hwang B, Gu C, Lee D, Lee JS (2017) Effect of halide-mixing on the switching behaviors of organic-inorganic hybrid perovskite memory. Sci Rep 7(3):43794CrossRef

14.

Aleshin AN, Alexandrova EL (2008) Switching and memory effects governed by the hopping mechanism of charge carrier transfer in composite films based on conducting polymers and inorganic nanoparticles. Phys Solid State 50(10):1978–1984CrossRef

15.

Verbakel F, Meskers SCJ, Raj J (2006) Electronic memory effects in diodes from a zinc oxide nanoparticle-polystyrene hybrid material. Appl Phys Lett 89(10):102103CrossRef

16.

Nagashima K, Yanagida T, Oka K (2010) Resistive switching multistate nonvolatile memory effects in a single cobalt oxide nanowire. Nano Lett 10(4):1359–1363CrossRef

17.

Kang SW, Rhee SW (2003) Effect of bismuth oxide as a buffer layer on metal–lanthanum-substituted bismuth titanate–insulator–semiconductor structures. J Vac Sci Technol B 21(6):2506–2511CrossRef

18.

Keiser H, Beccu KD, Gutjahr MA (1976) Abschätzung der porenstruktur poröser elektroden aus impedanzmessungen. Electrochim Acta 21(8):539–543CrossRef

19.

Adamian ZN, Abovian HV, Aroutiounian VM (1996) Smoke sensor on the base of Bi₂O₃ sesquioxide. Sens Actuators B Chem 35(8):241–243CrossRef

20.

Hanna TA (2004) The role of bismuth in the SOHIO process. Coord Chem Rev 248(8):429–440CrossRef

21.

Yang CH, Seidel J, Kim SY (2009) Electric modulation of conduction in multiferroic Ca-doped BiFeO₃ films. Nat Mater 8(6):485–493CrossRef

22.

Yin K, Li M, Liu Y (2010) Resistance switching in polycrystalline BiFeO₃ thin films. Appl Phys Lett 97(17):042101CrossRef

23.

Li M, Zhuge F, Zhu X (2010) Nonvolatile resistive switching in metal/La-doped BiFeO₃/Pt sandwiches. Nanotechnology 21(42):6–11CrossRef

24.

Zhu Y, Li M, Hu Z (2013) Nonvolatile resistive switching behaviour and the mechanism in Nd:BiFeO₃/Nb:SrTiO₃ heterostructure. J Phys D Appl Phys 46(21):215305CrossRef

25.

Hou J, Yang C, Wang Z (2013) In situ synthesis of α-β phase heterojunction on Bi₂O₃ nanowires with exceptional visible-light photocatalytic performance. Appl Catal B Environ 142–143(5):504–511CrossRef

26.

Ho CH, Chan CH, Huang YS (2013) The study of optical band edge property of bismuth oxide nanowires α-Bi₂O₃. Opt Express 21(10):11965–11972CrossRef

27.

Kumar P, Singh J, Pandey AC (2013) Rational low temperature synthesis and structural investigations of ultrathin bismuth nanosheets. RSC Adv 3(7):2313–2317CrossRef

28.

Lim E, Ismail R (2015) Conduction mechanism of valence change resistive switching memory: a survey. Electronics 4(3):586–613CrossRef

29.

Son D, Oh D, Jung J, Kim T (2011) Charging and discharging mechanisms of organic bistable devices based on ZnO nanoparticles capped with a poly n-vinylcarbazole polymer. J Nanosci Nanotechnol 11(1):711–715CrossRef

30.

Son DI, Park DH, Choi WK, Cho SH, Kim WT, Kim TW (2009) Carrier transport in flexible organic bistable devices of ZnO nanoparticles embedded in an insulating poly(methyl methacrylate) polymer layer. Nanotechnology 20(19):195203CrossRef

31.

Song J, Han H, Peng B (2017) Role of nanoparticle surface defects in the conduction mechanism of polymer-nanoparticle electrical bistable devices. RSC Adv 7(85):54128–54135CrossRef

32.

Li Y, Sui W, Li J-C (2017) Interfacial effects on resistive switching of flexible polymer thin films embedded with TiO₂ nanoparticles. J Phys Chem C 121(14):7944–7950CrossRef

33.

Tsai C, Chen C, Wang H, Lin J, Liou G (2013) Novel solution processable fluorene-based polyimide/TiO₂ hybrids with tunable memory properties. Polym Chem 4(17):4570–4573CrossRef

34.

Yim CM, Watkins MB, Wolf MJ, Hermansson K, Thornton G (2016) Engineering polarons at a metal oxide surface. Phys Rev Lett 117(11):116402CrossRef

35.

Wang M, Bi C, Li L, Long S, Liu Q, Lv H, Lu N, Sun P, Liu M (2014) Thermoelectric Seebeck effect in oxide-based resistive switching memory. Nat Commun 5(8):4598–4604CrossRef

Title: Nonvolatile switchable resistive behaviour via organic–inorganic hybrid interactions
Authors: Venkata K. Perla
Sarit K. Ghosh
Kaushik Mallick
Publication date: 28-09-2018
Publisher: Springer US
Published in: Journal of Materials Science / Issue 3/2019
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-018-2969-x

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