Nanoporous Silicon-Based Direct Hydrochloric Acid Fuel Cells

T.D. Dzhafarov; S. AydinYuksel

doi:10.6000/1929-6002.2013.02.02.3

Authors

T.D. Dzhafarov Institute of Physics, Azerbaijan National Academy of Sciences, Az-1143 Baku, Azerbaijan
S. AydinYuksel Department of Physics, Yildiz Technical University, 34210 Esenler/Istanbul, Turkey

DOI:

https://doi.org/10.6000/1929-6002.2013.02.02.3

Keywords:

Porous silicon membrane, HCl electrolyte, gold catalyst, power density, open circuit voltage

Abstract

Fabrication and characterization of Au/Porous silicon/Silicon (Au/PS/Si)-type direct hydrochloric acid fuel cells have been presented in this work. The Au/PS/Si cells were prepared by first creating the nanoporous silicon layer in single-crystalline Si using the anodic etching under illumination and deposition Au catalyst layer onto the porous silicon. The porous silicon filled with hydrochloric acid was developed as a proton conducting membrane. Using HCl:H₂O (1.7 M) solution as fuel the open circuit voltage of 0.65 V was obtained and maximum power density of 3.5 mW/cm² at room temperature was achieved. It is shown that the Au/PS/Si-type direct hydrochloric acid fuel cell with gold catalyst operating at room temperature can be considered as the most promising type of low cost fuel cell for small power-supply units.

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