Impedance Analysis for Hydrogen Adsorption Pseudocapacitance and Electrochemically Active Surface Area of Pt Electrode

Authors
Yoo, Hyun D.Jang, Jong HyunKa, Bok H.Rhee, Choong KyunOh, Seung M.
Issue Date
2009-10-06
Publisher
AMER CHEMICAL SOC
Citation
LANGMUIR, v.25, no.19, pp.11947 - 11954
Abstract
Electrochemically active surface area (ECA) of a polycrystalline Pt electrode is measured from the pseudocapacitance (C-p) values that are associated with hydrogen under potential deposition. The potential-dependent C-p Values are extracted from the raw impedance data by removing the interferences coming from the double-layer charging and hydrogen evolution. Three different approaches have been made: (i) by using the proportionality between the capacitance and area of the capacitive peak on imaginary capacitance plots, (ii) by complex nonlinear least-squares (CNLS) fitting on both the imaginary and real part of complex capacitance with appropriate equivalent circuits, and (iii) by using the modified Kramers-Kronig (K-K) relation. The first approach is the simplest one for the C-p measurement but cannot be used in the hydrogen evolution region (< 0.05 V vs RHE), whereas the measurement can be extended down to -0.01 V with the second method. The isotherm fitting on the C-p(E) profile shows that the saturation of adsorbed hydrogen is reached at -0.1 V vs RHE. Faster data acquisition is possible with the third approach since the data analysis call be made without the time-consuming low frequency data (< 100 Hz). The roughness factor and ECA of the Pt electrode are calculated from the electric charge that is obtained by integrating the potential-dependent C-p values; the roughness factor (1.4-1.5) lies within the normal range for planar electrodes.
Keywords
COMPLEX CAPACITANCE ANALYSIS; DOUBLE-LAYER CAPACITANCE; SINGLE-CRYSTAL; FARADAIC REACTIONS; CORROSION RATES; AC IMPEDANCE; PLATINUM; EVOLUTION; KINETICS; PT(111); COMPLEX CAPACITANCE ANALYSIS; DOUBLE-LAYER CAPACITANCE; SINGLE-CRYSTAL; FARADAIC REACTIONS; CORROSION RATES; AC IMPEDANCE; PLATINUM; EVOLUTION; KINETICS; PT(111); Impedance; Platinum; Hydrogen; Adsorptioin
ISSN
0743-7463
URI
https://pubs.kist.re.kr/handle/201004/132039
DOI
10.1021/la900290b
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KIST Article > 2009
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