GDC-Y2O3 Oxide Based Two Phase Nanocomposite Electrolyte

Rizwan Raza; Ghazanfar Abbas; S. Khalid Imran; Imran Patel; Bin Zhu

Source: Journal of Fuel Cell Science and Technology:;2011:;volume( 008 ):;issue: 004::page 41012

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DOI: 10.1115/1.4003634

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: Oxide based two phase composite electrolyte (Ce0.9Gd0.1O2–Y2O3) was synthesized by coprecipitation method. The nanocomposite electrolyte showed the significant performance of power density 785 mW cm−2 and higher conductivities at relatively low temperature 550°C. Ionic conductivities were measured with ac impedance spectroscopy and four-probe dc method. The structural and morphological properties of the prepared electrolyte were investigated by scanning electron microscope (SEM). The thermal stability was determined with differential scanning calorimetry. The particle size that was calculated with Scherrer formula, 15–20 nm, is in a good agreement with the SEM and X- ray diffraction results. The purpose of this study is to introduce the functional nanocomposite materials for advanced fuel cell technology to meet the challenges of solid oxide fuel cell.

keyword(s): Composite materials , Electrolytes , Nanocomposites , Fuel cells AND Ionic conductivity ,

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GDC-Y2O3 Oxide Based Two Phase Nanocomposite Electrolyte

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contributor author	Rizwan Raza
contributor author	Ghazanfar Abbas
contributor author	S. Khalid Imran
contributor author	Imran Patel
contributor author	Bin Zhu
date accessioned	2017-05-09T00:44:37Z
date available	2017-05-09T00:44:37Z
date copyright	August, 2011
date issued	2011
identifier issn	2381-6872
identifier other	JFCSAU-28949#041012_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/146468
description abstract	Oxide based two phase composite electrolyte (Ce0.9Gd0.1O2–Y2O3) was synthesized by coprecipitation method. The nanocomposite electrolyte showed the significant performance of power density 785 mW cm−2 and higher conductivities at relatively low temperature 550°C. Ionic conductivities were measured with ac impedance spectroscopy and four-probe dc method. The structural and morphological properties of the prepared electrolyte were investigated by scanning electron microscope (SEM). The thermal stability was determined with differential scanning calorimetry. The particle size that was calculated with Scherrer formula, 15–20 nm, is in a good agreement with the SEM and X- ray diffraction results. The purpose of this study is to introduce the functional nanocomposite materials for advanced fuel cell technology to meet the challenges of solid oxide fuel cell.
publisher	The American Society of Mechanical Engineers (ASME)
title	GDC-Y2O3 Oxide Based Two Phase Nanocomposite Electrolyte
type	Journal Paper
journal volume	8
journal issue	4
journal title	Journal of Fuel Cell Science and Technology
identifier doi	10.1115/1.4003634
journal fristpage	41012
identifier eissn	2381-6910
keywords	Composite materials
keywords	Electrolytes
keywords	Nanocomposites
keywords	Fuel cells AND Ionic conductivity
tree	Journal of Fuel Cell Science and Technology:;2011:;volume( 008 ):;issue: 004
contenttype	Fulltext

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