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774022 Sigma-Aldrich

Yttrium(III) oxide

sputtering target, diam. × thickness 2.00 in. × 0.25 in., 99.99% trace metals basis

Synonym: Yttria

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Properties

Related Categories Materials Science, Micro/NanoElectronics, Physical Vapor Deposition (PVD), Sputtering Targets, Vapor Deposition Precursors More...
Quality Level   100
InChI Key   SIWVEOZUMHYXCS-UHFFFAOYSA-N
assay   99.99% trace metals basis
diam. × thickness   2.00 in. × 0.25 in.
mp   2410 °C (lit.)
density   5.01 g/mL at 25 °C (lit.)

Description

Application

Solid Oxide Fuel cells operating at temperatures below 800 C (also known as intermediate temperature solid oxide fuel cell, IT-SOFC) are currently the topic of much research and development owing to the high degradation rates and materials costs incurred for SOFC operating at temperatures above 900 C. Thin films of electrode and electrolyte layers is one of the ways to achieve high performances in IT-SOFC.
Yttrium oxide sputtering target can be used for physical vapor deposition of thin films of yttria stabilized zirconia layers for IT-SOFC. Yttrium containing films are used as thermal barrier and protective coatings in thermoelectric devices, rare earth doped yttrium oxide films are studied for phosphor applications.

Packaging

1 ea in glass bottle

Safety & Documentation

Safety Information

RIDADR 
NONH for all modes of transport
WGK Germany 
1
RTECS 
ZG3850000

Documents

Certificate of Analysis (COA)

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Protocols & Articles

Articles

Nanocomposite Coatings with Tunable Properties Prepared by Atomic Layer Deposition

Nanocomposite coatings, comprised of a precisely blended mixture of components, have diverse applications in microelectronics, optics, sensors, and solid-state detectors. By varying the composition o...
Keywords: Absorption, Amplification, Atomic layer deposition, Chromatin immunoprecipitation, Deposition, Detection methods, Diffraction, Diffusion, Elemental analysis, Exothermic, Infrared spectroscopy, Microelectronics, Microscopy, Reductions, Scanning electron microscopy, Semiconductor, Spectroscopy, Tissue microarrays, Transmission electron microscopy

Nanowire Synthesis: From Top-Down to Bottom-Up

David J. Hill, James F. Cahoon* Department of Chemistry, University of North Carolina at Chapel Hill, USA *Email: jfcahoon@unc.edu
David J. Hill, James F. Cahoon*
Material Matters, 2017, 12.1
Keywords: Absorption, Catalysis, Chemical vapor deposition, Deposition, Electronics, Melting, Microelectronics, Nanomaterials, Redox Reactions, Reductions, Semiconductor

Recent Progress in Spintronic Materials

Soubantika Palchoudhury,1 Karthik Ramasamy,2* Arunava Gupta3* 1Civil and Chemical Engineering, University of Tennessee at Chattanooga, Chattanooga, Tennessee 37403, USA 2Center for Integrated Nanotec...
Soubantika Palchoudhury, Karthik Ramasamy, Arunava Gupta
By: Dr. Hui Zhu, Material Matters, 2016, 11.4
Keywords: Catalysis, Microscopy, Scanning electron microscopy, Semiconductor, Transmission electron microscopy

Peer-Reviewed Papers
15

References

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