Effects of ZrO{sub 2} doping on HfO{sub 2} resistive switching memory characteristics

A resistive switching (RS) random access memory device with ZrO{sub 2}-doped HfO{sub 2} exhibits better RS performance than that with pure HfO{sub 2}. In particular, I{sub res}, V{sub res}, and V{sub set} are reduced by approximately 58%, 38%, and 39%, respectively, when HfO{sub 2} is doped with ZrO...

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Veröffentlicht in:	Applied physics letters 2014-08, Vol.105 (7)
Hauptverfasser:	Ryu, Seung Wook, Kwac, Jungsuk, Nishi, Yoshio, Cho, Seongjae, Park, Joonsuk, Kim, Hyeong Joon
Format:	Artikel
Sprache:	eng
Schlagworte:	CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY DISTRIBUTION DOPED MATERIALS ELECTRIC CONDUCTIVITY HAFNIUM OXIDES MEMORY DEVICES RANDOMNESS SWITCHES TRANSMISSION ELECTRON MICROSCOPY X-RAY PHOTOELECTRON SPECTROSCOPY ZIRCONIUM OXIDES
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creator	Ryu, Seung Wook Kwac, Jungsuk Nishi, Yoshio Cho, Seongjae Park, Joonsuk Kim, Hyeong Joon
description	A resistive switching (RS) random access memory device with ZrO{sub 2}-doped HfO{sub 2} exhibits better RS performance than that with pure HfO{sub 2}. In particular, I{sub res}, V{sub res}, and V{sub set} are reduced by approximately 58%, 38%, and 39%, respectively, when HfO{sub 2} is doped with ZrO{sub 2} (9 at. %). In addition, the ZrO{sub 2} doping in HfO{sub 2} makes the distribution of most parameters steeper. Transmission electron microscopy (TEM) analysis reveals that the deposited zirconium-doped hafnium oxide (HZO) (9 at. %) is polycrystalline. Elemental mapping results by scanning TEM–energy dispersive spectroscopy also prove that ZrO{sub 2} is uniformly distributed in the HZO (9 at. %) film. The possible mechanism for the improvement in the RS characteristics is also suggested on the basis of the X-ray photoelectron spectroscopy results and filamentary RS mechanism. These results suggest that the ZrO{sub 2} doping into HfO{sub 2} likely not only will reduce power consumption but also will improve cyclic endurance by controlling the nonstoichiometric phase.
doi_str_mv	10.1063/1.4893568
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In particular, I{sub res}, V{sub res}, and V{sub set} are reduced by approximately 58%, 38%, and 39%, respectively, when HfO{sub 2} is doped with ZrO{sub 2} (9 at. %). In addition, the ZrO{sub 2} doping in HfO{sub 2} makes the distribution of most parameters steeper. Transmission electron microscopy (TEM) analysis reveals that the deposited zirconium-doped hafnium oxide (HZO) (9 at. %) is polycrystalline. Elemental mapping results by scanning TEM–energy dispersive spectroscopy also prove that ZrO{sub 2} is uniformly distributed in the HZO (9 at. %) film. The possible mechanism for the improvement in the RS characteristics is also suggested on the basis of the X-ray photoelectron spectroscopy results and filamentary RS mechanism. 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In particular, I{sub res}, V{sub res}, and V{sub set} are reduced by approximately 58%, 38%, and 39%, respectively, when HfO{sub 2} is doped with ZrO{sub 2} (9 at. %). In addition, the ZrO{sub 2} doping in HfO{sub 2} makes the distribution of most parameters steeper. Transmission electron microscopy (TEM) analysis reveals that the deposited zirconium-doped hafnium oxide (HZO) (9 at. %) is polycrystalline. Elemental mapping results by scanning TEM–energy dispersive spectroscopy also prove that ZrO{sub 2} is uniformly distributed in the HZO (9 at. %) film. The possible mechanism for the improvement in the RS characteristics is also suggested on the basis of the X-ray photoelectron spectroscopy results and filamentary RS mechanism. 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subjects	CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY DISTRIBUTION DOPED MATERIALS ELECTRIC CONDUCTIVITY HAFNIUM OXIDES MEMORY DEVICES RANDOMNESS SWITCHES TRANSMISSION ELECTRON MICROSCOPY X-RAY PHOTOELECTRON SPECTROSCOPY ZIRCONIUM OXIDES
title	Effects of ZrO{sub 2} doping on HfO{sub 2} resistive switching memory characteristics
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