Impact of vacancy clusters on characteristic resistance change of nonstoichiometric strontium titanate nano-film

Impact of vacancy clusters on characteristic resistance change of nonstoichiometric strontium titanate nano-film

In practical applications to bipolar resistance switching (BRS) memory devices with enhanced performance and high-scalability, oxide materials are commonly fabricated to highly nonstoichiometric and nanometer scale films. In this study, we fabricated ultrathin strontium titanate film, which shows tw...

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Veröffentlicht in:Applied physics letters 2014-01, Vol.104 (1)
Hauptverfasser: Su Kim, Yong, Kim, Jiyeon, Jee Yoon, Moon, Hee Sohn, Chang, Buhm Lee, Shin, Lee, Daesu, Chul Jeon, Byung, Keun Yoo, Hyang, Won Noh, Tae, Bostwick, Aaron, Rotenberg, Eli, Yu, Jaejun, Don Bu, Sang, Simon Mun, Bongjin
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Clusters
MATERIALS SCIENCE
MEMORY DEVICES
Microbeams
Performance enhancement
Photoelectric emission
PHOTOEMISSION
SPECTROSCOPY
Spectrum analysis
STRONTIUM
Strontium titanates
Switching
THIN FILMS
TITANATES
VACANCIES
X ray spectra
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Zusammenfassung:In practical applications to bipolar resistance switching (BRS) memory devices with enhanced performance and high-scalability, oxide materials are commonly fabricated to highly nonstoichiometric and nanometer scale films. In this study, we fabricated ultrathin strontium titanate film, which shows two types of BRS behavior. By using micro-beam X-ray photoemission spectroscopy, the changes of core-level spectra depending on the resistance states are spatially resolved. Experimental and calculated results demonstrated that the fundamental switching mechanism in the two types of BRS is originated from the migration of anion and cation vacancies and the formation of insulating vacancy clusters near vicinity of the interface.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4860961