Published March 14, 2013 | Published + Supplemental Material
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Photoelectrochemical Behavior of n‑type Si(100) Electrodes Coated with Thin Films of Manganese Oxide Grown by Atomic Layer Deposition

Abstract

Thin (10 nm) films of manganese oxide have been deposited by atomic layer deposition (ALD) onto n-type silicon and onto degenerately doped p-type silicon. The photoelectrochemical properties of the resulting semiconductor/metal-oxide structures were evaluated in contact with aqueous 0.35 M K_4Fe(CN)_6−0.05 M K_3Fe(CN)_6, 1.0 M KOH(aq), as well as in contact with a series of nonaqueous one electron, reversible, outer-sphere redox systems. Under simulated air mass (AM) 1.5 illumination in contact with 0.35 M K_4Fe(CN)_6−0.05 M K_3Fe(CN)_6(aq), MnO-coated n-Si photoanodes displayed open-circuit voltages of up to 550 mV and stable anodic currents for periods of hours at 0.0 V versus the solution potential. In contact with 1.0 M KOH(aq), at current densities of ∼25 mA cm^(−2), MnO|Si photoanodes under 100 mW cm^(−2) of simulated AM 1.5 illuminationyielded stable oxygen evolution for 10−30 min. Variation in the thickness of the MnO films from 4 to 20 nm indicated the presence of a series resistance in the MnO film that limited the fill factor and thus the solar energy-conversion efficiency of the photoelectrodes. Open-circuit photovoltages of 30 and 450 mV, respectively, were observed in contact with cobaltocene^(+/0) or ferrocene^(+/0) in CH_3CN, indicating that the energetics of the MnO-coated Si surfaces were a function of the electrochemical potential of the contacting electrolyte solution.

Additional Information

© 2013 American Chemical Society. Published In Issue March 14, 2013. Article ASAP March 01, 2013. Just Accepted Manuscript February 06, 2013. Publication Date (Web): February 6, 2013. We acknowledge support from the NSF (CHE-1214152) and N.C.S. acknowledges the NSF for an American Competitiveness in Chemistry postdoctoral fellowship (CHE-1042006). The authors declare no competing financial interest.

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August 19, 2023
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