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Advanced Catalytic Electrode Development for Nickel-Hydrogen Batteries

Published online by Cambridge University Press:  15 February 2011

D. K. Coates ,
B. K. Grindstaff ,
P. S. Hoofnagle  and
D. P. Chiappetti
D. K. Coates
Affiliation:
Advanced Systems Operation, Eagle-Picher Industries, Inc., Joplin, Missouri 64802 USA
B. K. Grindstaff
Affiliation:
Advanced Systems Operation, Eagle-Picher Industries, Inc., Joplin, Missouri 64802 USA
P. S. Hoofnagle
Affiliation:
Advanced Systems Operation, Eagle-Picher Industries, Inc., Joplin, Missouri 64802 USA
D. P. Chiappetti
Affiliation:
Advanced Systems Operation, Eagle-Picher Industries, Inc., Joplin, Missouri 64802 USA
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Abstract

Low catalyst loading gas diffusion membrane electrodes have been developed for spaceflight qualified nickel-hydrogen (NiH2) batteries. These electrodes involve the use of new electrode designs and innovative manufacturing methods. Supported catalysts, mixed catalysts and alternative catalyst systems have been developed to decrease catalyst loading levels, and therefore reduce electrode cost, without reducing performance or reliability. This advanced electrode technology has currently accumulated more than 13,000 charge/discharge cycles in real-time, low-earth-orbit (LEO) testing. The technology has been incorporated into several nickel-hydrogen spaceflight programs including the TUBSAT B spacecraft, built by the Technical University of Berlin and launched in January of 1994 aboard a Russian Cyclone rocket.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 393: Symposium W – Materials for Electrochemical Energy Storage and Conversion , 1995 , 257
Copyright
Copyright © Materials Research Society 1995

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References

REFERENCES

1 Coates, D. and Grind, B., staff, in Proc. Symp. Hydrogen Storage Mtls., Batteries, and Electro chemistry, PV 92-5, p.400, The Electro chemical Society Proceedings Series, Pennington, NJ (1991).Google Scholar