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Fabrication of ultrahigh density metal-cell-metal crossbar memory devices with only two cycles of lithography and dry-etch procedures

A novel approach to the fabrication of metal-cell-metal trilayer memory devices was demonstrated by using only two cycles of lithography and dry-etch procedures. The fabricated ultrahigh density crossbar devices can be scaled down to ≤70 nm in half-pitch without alignment issues. Depending on the di...

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Published in:	Nanotechnology 2013-06, Vol.24 (24), p.245303-245303
Main Authors:	Zong, B Y, Goh, J Y, Guo, Z B, Luo, P, Wang, C C, Qiu, J J, Ho, P, Chen, Y J, Zhang, M S, Han, G C
Format:	Article
Language:	English
Subjects:	Applied sciences Cross-disciplinary physics: materials science rheology Data storage Density Electronics Exact sciences and technology High density Lithography Materials science Memory devices Methods of nanofabrication Molecular electronics, nanoelectronics Nanocomposites Nanolithography Nanomaterials Nanoscale pattern formation Nanostructure Physics Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
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cited_by	cdi_FETCH-LOGICAL-c417t-303cb88dce31e9f9a22a685523a84b64e237cbdb2d131e2a2a9115d6588f40603
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creator	Zong, B Y Goh, J Y Guo, Z B Luo, P Wang, C C Qiu, J J Ho, P Chen, Y J Zhang, M S Han, G C
description	A novel approach to the fabrication of metal-cell-metal trilayer memory devices was demonstrated by using only two cycles of lithography and dry-etch procedures. The fabricated ultrahigh density crossbar devices can be scaled down to ≤70 nm in half-pitch without alignment issues. Depending on the different dry-etch mechanisms in transferring high and low density nanopatterns, suitable dry-etch angles and methods are studied for the transfer of high density nanopatterns. Some novel process methods have also been developed to eliminate the sidewall and other conversion obstacles for obtaining high density of uniform metallic nanopatterns. With these methods, ultrahigh density trilayer crossbar devices (∼2 × 1010 bit cm−2-kilobit electronic memory), which are composed of built-in practical magnetoresistive nanocells, have been achieved. This scalable process that we have developed provides the relevant industries with a cheap means to commercially fabricate three-dimensional high density metal-cell-metal nanodevices.
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The fabricated ultrahigh density crossbar devices can be scaled down to ≤70 nm in half-pitch without alignment issues. Depending on the different dry-etch mechanisms in transferring high and low density nanopatterns, suitable dry-etch angles and methods are studied for the transfer of high density nanopatterns. Some novel process methods have also been developed to eliminate the sidewall and other conversion obstacles for obtaining high density of uniform metallic nanopatterns. With these methods, ultrahigh density trilayer crossbar devices (∼2 × 1010 bit cm−2-kilobit electronic memory), which are composed of built-in practical magnetoresistive nanocells, have been achieved. 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The fabricated ultrahigh density crossbar devices can be scaled down to ≤70 nm in half-pitch without alignment issues. Depending on the different dry-etch mechanisms in transferring high and low density nanopatterns, suitable dry-etch angles and methods are studied for the transfer of high density nanopatterns. Some novel process methods have also been developed to eliminate the sidewall and other conversion obstacles for obtaining high density of uniform metallic nanopatterns. With these methods, ultrahigh density trilayer crossbar devices (∼2 × 1010 bit cm−2-kilobit electronic memory), which are composed of built-in practical magnetoresistive nanocells, have been achieved. This scalable process that we have developed provides the relevant industries with a cheap means to commercially fabricate three-dimensional high density metal-cell-metal nanodevices.</description><subject>Applied sciences</subject><subject>Cross-disciplinary physics: materials science; rheology</subject><subject>Data storage</subject><subject>Density</subject><subject>Electronics</subject><subject>Exact sciences and technology</subject><subject>High density</subject><subject>Lithography</subject><subject>Materials science</subject><subject>Memory devices</subject><subject>Methods of nanofabrication</subject><subject>Molecular electronics, nanoelectronics</subject><subject>Nanocomposites</subject><subject>Nanolithography</subject><subject>Nanomaterials</subject><subject>Nanoscale pattern formation</subject><subject>Nanostructure</subject><subject>Physics</subject><subject>Semiconductor electronics. Microelectronics. Optoelectronics. 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The fabricated ultrahigh density crossbar devices can be scaled down to ≤70 nm in half-pitch without alignment issues. Depending on the different dry-etch mechanisms in transferring high and low density nanopatterns, suitable dry-etch angles and methods are studied for the transfer of high density nanopatterns. Some novel process methods have also been developed to eliminate the sidewall and other conversion obstacles for obtaining high density of uniform metallic nanopatterns. With these methods, ultrahigh density trilayer crossbar devices (∼2 × 1010 bit cm−2-kilobit electronic memory), which are composed of built-in practical magnetoresistive nanocells, have been achieved. 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subjects	Applied sciences Cross-disciplinary physics: materials science rheology Data storage Density Electronics Exact sciences and technology High density Lithography Materials science Memory devices Methods of nanofabrication Molecular electronics, nanoelectronics Nanocomposites Nanolithography Nanomaterials Nanoscale pattern formation Nanostructure Physics Semiconductor electronics. Microelectronics. Optoelectronics. Solid state devices
title	Fabrication of ultrahigh density metal-cell-metal crossbar memory devices with only two cycles of lithography and dry-etch procedures
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