32 × 32 crossbar array resistive memory composed of a stacked schottky diode and unipolar resistive memory

Gun Hwan Kim; Jong Ho Lee; Youngbae Ahn; Woojin Jeon; Seul Ji Song; Jun Yeong Seok; Jung Ho Yoon; Kyung Jean Yoon; Tae Joo Park; Cheol Seong Hwang

doi:10.1002/adfm.201202170

32 × 32 crossbar array resistive memory composed of a stacked schottky diode and unipolar resistive memory

Gun Hwan Kim
, Jong Ho Lee
, Youngbae Ahn
, Woojin Jeon
, Seul Ji Song
, Jun Yeong Seok
, Jung Ho Yoon
, Kyung Jean Yoon
, Tae Joo Park
, Cheol Seong Hwang

Research output: Contribution to journal › Article › peer-review

167 Scopus citations

Abstract

Various array types of 1-diode and 1-resistor stacked crossbar array (1D1R CA) devices composed of a Schottky diode (SD) (Pt/TiO₂/Ti/Pt) and a resistive switching (RS) memory cell (Pt/TiO₂/Pt) are fabricated and their performances are investigated. The unit cell of the 1D1R CA device shows high RS resistance ratio (≈10³ at 1.5 V) between low and high resistance state (LRS and HRS), and high rectification ratio (≈10 ⁵) between LRS and reverse-state SD. It also shows a short RS time of <50 ns for SET (resistance transition from HRS to LRS), and ≈600 ns for RESET (resistance transition from LRS to HRS), as well as stable RS endurance and data retention characteristics. It is experimentally confirmed that the selected unit cell in HRS (logically the "off" state) is stably readable when it is surrounded by unselected LRS (logically the "on" state) cells, in an array of up to 32 × 32 cells. The SD, as a highly non-linear resistor, appropriately controls the conducting path formation during the switching and protects the memory element from the noise during retention.

Original language	English
Pages (from-to)	1440-1449
Number of pages	10
Journal	Advanced Functional Materials
Volume	23
Issue number	11
DOIs	https://doi.org/10.1002/adfm.201202170
State	Published - 20 Mar 2013
Externally published	Yes

Keywords

crossbar arrays
Schottky-type diodes
unipolar resistive switching

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10.1002/adfm.201202170

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@article{29a692dea0914e5cbde25af43f48ac22,

title = "32 × 32 crossbar array resistive memory composed of a stacked schottky diode and unipolar resistive memory",

abstract = "Various array types of 1-diode and 1-resistor stacked crossbar array (1D1R CA) devices composed of a Schottky diode (SD) (Pt/TiO2/Ti/Pt) and a resistive switching (RS) memory cell (Pt/TiO2/Pt) are fabricated and their performances are investigated. The unit cell of the 1D1R CA device shows high RS resistance ratio (≈103 at 1.5 V) between low and high resistance state (LRS and HRS), and high rectification ratio (≈10 5) between LRS and reverse-state SD. It also shows a short RS time of <50 ns for SET (resistance transition from HRS to LRS), and ≈600 ns for RESET (resistance transition from LRS to HRS), as well as stable RS endurance and data retention characteristics. It is experimentally confirmed that the selected unit cell in HRS (logically the {"}off{"} state) is stably readable when it is surrounded by unselected LRS (logically the {"}on{"} state) cells, in an array of up to 32 × 32 cells. The SD, as a highly non-linear resistor, appropriately controls the conducting path formation during the switching and protects the memory element from the noise during retention.",

keywords = "crossbar arrays, Schottky-type diodes, unipolar resistive switching",

author = "Kim, \{Gun Hwan\} and Lee, \{Jong Ho\} and Youngbae Ahn and Woojin Jeon and Song, \{Seul Ji\} and Seok, \{Jun Yeong\} and Yoon, \{Jung Ho\} and Yoon, \{Kyung Jean\} and Park, \{Tae Joo\} and Hwang, \{Cheol Seong\}",

year = "2013",

month = mar,

day = "20",

doi = "10.1002/adfm.201202170",

language = "English",

volume = "23",

pages = "1440--1449",

journal = "Advanced Functional Materials",

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publisher = "John Wiley and Sons Inc",

number = "11",

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TY - JOUR

T1 - 32 × 32 crossbar array resistive memory composed of a stacked schottky diode and unipolar resistive memory

AU - Kim, Gun Hwan

AU - Lee, Jong Ho

AU - Ahn, Youngbae

AU - Jeon, Woojin

AU - Song, Seul Ji

AU - Seok, Jun Yeong

AU - Yoon, Jung Ho

AU - Yoon, Kyung Jean

AU - Park, Tae Joo

AU - Hwang, Cheol Seong

PY - 2013/3/20

Y1 - 2013/3/20

N2 - Various array types of 1-diode and 1-resistor stacked crossbar array (1D1R CA) devices composed of a Schottky diode (SD) (Pt/TiO2/Ti/Pt) and a resistive switching (RS) memory cell (Pt/TiO2/Pt) are fabricated and their performances are investigated. The unit cell of the 1D1R CA device shows high RS resistance ratio (≈103 at 1.5 V) between low and high resistance state (LRS and HRS), and high rectification ratio (≈10 5) between LRS and reverse-state SD. It also shows a short RS time of <50 ns for SET (resistance transition from HRS to LRS), and ≈600 ns for RESET (resistance transition from LRS to HRS), as well as stable RS endurance and data retention characteristics. It is experimentally confirmed that the selected unit cell in HRS (logically the "off" state) is stably readable when it is surrounded by unselected LRS (logically the "on" state) cells, in an array of up to 32 × 32 cells. The SD, as a highly non-linear resistor, appropriately controls the conducting path formation during the switching and protects the memory element from the noise during retention.

AB - Various array types of 1-diode and 1-resistor stacked crossbar array (1D1R CA) devices composed of a Schottky diode (SD) (Pt/TiO2/Ti/Pt) and a resistive switching (RS) memory cell (Pt/TiO2/Pt) are fabricated and their performances are investigated. The unit cell of the 1D1R CA device shows high RS resistance ratio (≈103 at 1.5 V) between low and high resistance state (LRS and HRS), and high rectification ratio (≈10 5) between LRS and reverse-state SD. It also shows a short RS time of <50 ns for SET (resistance transition from HRS to LRS), and ≈600 ns for RESET (resistance transition from LRS to HRS), as well as stable RS endurance and data retention characteristics. It is experimentally confirmed that the selected unit cell in HRS (logically the "off" state) is stably readable when it is surrounded by unselected LRS (logically the "on" state) cells, in an array of up to 32 × 32 cells. The SD, as a highly non-linear resistor, appropriately controls the conducting path formation during the switching and protects the memory element from the noise during retention.

KW - crossbar arrays

KW - Schottky-type diodes

KW - unipolar resistive switching

UR - https://www.scopus.com/pages/publications/84875000929

U2 - 10.1002/adfm.201202170

DO - 10.1002/adfm.201202170

M3 - Article

AN - SCOPUS:84875000929

SN - 1616-301X

VL - 23

SP - 1440

EP - 1449

JO - Advanced Functional Materials

JF - Advanced Functional Materials

IS - 11

ER -

32 × 32 crossbar array resistive memory composed of a stacked schottky diode and unipolar resistive memory

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Keywords

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