Exploiting Memristive BiFeO sub(3) Bilayer Structures for Compact Sequential Logics

Resistive switching devices are considered as one of the most promising candidates for the next generation memories and nonvolatile logic applications. In this paper, BiFeO sub(3):Ti/BiFeO sub(3) (BFTO/BFO) bilayer structures with optimized BFTO/BFO thickness ratio which show symmetric, bipolar, and...

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Veröffentlicht in:	Advanced functional materials 2014-06, Vol.24 (22), p.3357-3365
Hauptverfasser:	You, Tiangui, Shuai, Yao, Luo, Wenbo, Du, Nan, Buerger, Danilo, Skorupa, Ilona, Huebner, Rene, Henker, Stephan, Mayr, Christian, Schueffny, Rene, Mikolajick, Thomas, Schmidt, Oliver G, Schmidt, Heidemarie
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Sprache:	eng
Schlagworte:	Bias Boolean algebra Logic Mathematical models Migration Switching Terminals Thickness ratio
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creator	You, Tiangui Shuai, Yao Luo, Wenbo Du, Nan Buerger, Danilo Skorupa, Ilona Huebner, Rene Henker, Stephan Mayr, Christian Schueffny, Rene Mikolajick, Thomas Schmidt, Oliver G Schmidt, Heidemarie
description	Resistive switching devices are considered as one of the most promising candidates for the next generation memories and nonvolatile logic applications. In this paper, BiFeO sub(3):Ti/BiFeO sub(3) (BFTO/BFO) bilayer structures with optimized BFTO/BFO thickness ratio which show symmetric, bipolar, and nonvolatile resistive switching with good retention and endurance performance, are presented. The resistive switching mechanism is understood by a model of flexible top and bottom Schottky-like barrier heights in the BFTO/BFO bilayer structures. The resistive switching at both positive and negative bias make it possible to use both polarities of reading bias to simultaneously program and store all 16 Boolean logic functions into a single cell of a BFTO/BFO bilayer structure in three logic cycles. A BiFeO sub(3):Ti/BiFeO sub(3) (BFTO/BFO) bilayer structure with optimized BFTO thickness reveals nonvolatile symmetric bipolar resistive switching due to the migration of oxygen vacancies/ions in an electric field. For nonvolatile logic applications, all 16 Boolean logic functions can be configured into a single BFTO/BFO cell using terminal T1 and T2 for positive and negative writing (C.HV1, C.HV2) and reading biases (C.LV).
doi_str_mv	10.1002/adfm.201303365
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subjects	Bias Boolean algebra Logic Mathematical models Migration Switching Terminals Thickness ratio
title	Exploiting Memristive BiFeO sub(3) Bilayer Structures for Compact Sequential Logics
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