Tunable Low Density Palladium Nanowire Foams
ORAL
Abstract
Nanostructured metal foams offer exciting potential for applications in diverse fields such as biomedical, aerospace and chemical engieering. We have fabricated palladium nanowire foams with opportunities in catalysts, fuel cells, and hydrogen storage technologies using a cross-linking and freeze-drying technique. These foams have a tunable density down to 0.1% of the bulk, and a surface area to volume ratio of up-to 1.54×106 :1 m-1. These foams exhibit highly attractive characteristics for hydrogen storage, in terms of loading capacity, rate of absorption and heat of absorption.[1] The hydrogen absorption/desorption process is hysteretic in nature, accompanied by substantial lattice expansion/contraction as the foam converts between Pd and PdHx.
[1] D. A. Gilbert, E. C. Burks, S. V. Ushakov, P. Abellan, I. Arslan, T. E. Felter, A. Navrotsky, and Kai Liu, Chemistry of Materials, DOI:10.1021/acs.chemmater.7b03978 (2017).
[1] D. A. Gilbert, E. C. Burks, S. V. Ushakov, P. Abellan, I. Arslan, T. E. Felter, A. Navrotsky, and Kai Liu, Chemistry of Materials, DOI:10.1021/acs.chemmater.7b03978 (2017).
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Presenters
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Dustin Gilbert
NIST -Natl Inst of Stds & Tech, NIST Center for Neutron Research
Authors
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Dustin Gilbert
NIST -Natl Inst of Stds & Tech, NIST Center for Neutron Research
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Edward Burks
Physics, University of California, Davis
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Kai Liu
Physics, University of California, Davis
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Sergey Ushakov
Peter A. Rock Thermochemistry Lab, University of California, Davis
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Alexandra Navrotsky
Peter A. Rock Thermochemistry Lab, University of California, Davis
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Patricia Abellan
SuperSTEM Lab, SciTech Daresbury Campus
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Ilke Arslan
Pacific Northwest National Lab
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Thomas Felter
Sandia National Laboratory