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  • EA201170017A1

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METHOD FOR PREPARING SOFC ELECTROLYTE

Research output: Patent

Published

Standard

METHOD FOR PREPARING SOFC ELECTROLYTE. / Bone, Adam (Inventor); Leah, Rob (Inventor); Dawson, Richard James (Inventor).
Patent No.: EA021907 (B1). Sept 30, 2015.

Research output: Patent

Harvard

Bone, A, Leah, R & Dawson, RJ Sept. 30 2015, METHOD FOR PREPARING SOFC ELECTROLYTE, Patent No. EA021907 (B1).

APA

Bone, A., Leah, R., & Dawson, R. J. (2015). METHOD FOR PREPARING SOFC ELECTROLYTE. (Patent No. EA021907 (B1)).

Vancouver

Bone A, Leah R, Dawson RJ, inventors. METHOD FOR PREPARING SOFC ELECTROLYTE. EA021907 (B1). 2015 Sept 30.

Author

Bone, Adam (Inventor) ; Leah, Rob (Inventor) ; Dawson, Richard James (Inventor). / METHOD FOR PREPARING SOFC ELECTROLYTE. Patent No.: EA021907 (B1). Sept 30, 2015.

Bibtex

@misc{ee782b20804840868e22f30a5b529ca8,
title = "METHOD FOR PREPARING SOFC ELECTROLYTE",
abstract = "The present invention is concerned with methods for the deposition of ceramic films on ceramic or metallic surfaces, particularly the deposition of sub-micron thickness ceramic films such as films of stabilised zirconia and doped ceria such as CGO (cerium gadolinium oxide). The present invention is particularly useful in the manufacture of high and intermediate temperature operating fuel cells including solid oxide fuel cells (SOFC) and also metal supported intermediate temperature SOFC operating in the 450-650°C range.",
author = "Adam Bone and Rob Leah and Dawson, {Richard James}",
year = "2015",
month = sep,
day = "30",
language = "English",
type = "Patent",
note = "EA021907 (B1)",

}

RIS

TY - PAT

T1 - METHOD FOR PREPARING SOFC ELECTROLYTE

AU - Bone, Adam

AU - Leah, Rob

AU - Dawson, Richard James

PY - 2015/9/30

Y1 - 2015/9/30

N2 - The present invention is concerned with methods for the deposition of ceramic films on ceramic or metallic surfaces, particularly the deposition of sub-micron thickness ceramic films such as films of stabilised zirconia and doped ceria such as CGO (cerium gadolinium oxide). The present invention is particularly useful in the manufacture of high and intermediate temperature operating fuel cells including solid oxide fuel cells (SOFC) and also metal supported intermediate temperature SOFC operating in the 450-650°C range.

AB - The present invention is concerned with methods for the deposition of ceramic films on ceramic or metallic surfaces, particularly the deposition of sub-micron thickness ceramic films such as films of stabilised zirconia and doped ceria such as CGO (cerium gadolinium oxide). The present invention is particularly useful in the manufacture of high and intermediate temperature operating fuel cells including solid oxide fuel cells (SOFC) and also metal supported intermediate temperature SOFC operating in the 450-650°C range.

M3 - Patent

M1 - EA021907 (B1)

Y2 - 2011/08/30

ER -