2019
DOI: 10.1021/acscatal.9b02006
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Determination of Electroactive Surface Area of Ni-, Co-, Fe-, and Ir-Based Oxide Electrocatalysts

Abstract: Metal oxides are important functional materials with a wide range of applications, especially in the field of electrocatalysis. However, quick and accurate assessment of their real electroactive surface area (ECSA), which is of paramount importance for the evaluation of their performance, remains a challenging task. Herein, we present a relatively simple strategy for an accurate in situ determination of the ECSA of commonly used metal oxide catalysts, namely Ni-, Co-, Fe-, Pt-, and Ir-based oxides. Similar to … Show more

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Cited by 106 publications
(119 citation statements)
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“…Specific activities obtained by normalizing the current to the electrochemically active surface area (ECSA) can be used as alternative methods if the TOFs cannot be accurately calculated. For LDHs, the evaluation of the ECSA is not straightforward, due to 1) potential dependent changes of the electrical conductivity of LDHs, [33] 2) a narrow or non‐existing potential window that is free of faradaic current in the conductive regime, 3) metal oxidation peaks in cyclic voltammograms that overlap with the OER faradaic current, and 4) difficulties in obtaining model catalysts with smooth planar surfaces for the conversion of the calculated values, that is, capacitances, in the unit of an area [34] . Among the various methods to estimate the ECSA, we used the capacitance of the adsorbed OER intermediates ( C a ) that was calculated by electrochemical impedance spectroscopy (EIS) at 1.6 V RHE .…”
Section: Resultsmentioning
confidence: 99%
“…Specific activities obtained by normalizing the current to the electrochemically active surface area (ECSA) can be used as alternative methods if the TOFs cannot be accurately calculated. For LDHs, the evaluation of the ECSA is not straightforward, due to 1) potential dependent changes of the electrical conductivity of LDHs, [33] 2) a narrow or non‐existing potential window that is free of faradaic current in the conductive regime, 3) metal oxidation peaks in cyclic voltammograms that overlap with the OER faradaic current, and 4) difficulties in obtaining model catalysts with smooth planar surfaces for the conversion of the calculated values, that is, capacitances, in the unit of an area [34] . Among the various methods to estimate the ECSA, we used the capacitance of the adsorbed OER intermediates ( C a ) that was calculated by electrochemical impedance spectroscopy (EIS) at 1.6 V RHE .…”
Section: Resultsmentioning
confidence: 99%
“…ForL DHs,t he evaluation of the ECSA is not straightforward, due to 1) potential dependent changes of the electrical conductivity of LDHs, [33] 2) anarrow or non-existing potential window that is free of faradaic current in the conductive regime,3 )m etal oxidation peaks in cyclic voltammograms that overlap with the OER faradaic current, and 4) difficulties in obtaining model catalysts with smooth planar surfaces for the conversion of the calculated values, that is,c apacitances,i nt he unit of an area. [34] Among the various methods to estimate the ECSA, we used the capacitance of the adsorbed OER intermediates (C a )t hat was calculated by electrochemical impedance spectroscopy (EIS) at 1.6 V RHE .T his potential is more anodic than the oxidation peak associated to the oxidation of Ni II and Co II ,in which NiM and CoM LDH become conductive. [11] The equivalent circuit which was used to fit the impedance data was adapted from Watzele and Bandarenka, [26] and previously introduced and discussed by Lyons and Brandon.…”
Section: Ecsa Determination and Oer Intrinsic Activitymentioning
confidence: 99%
“…Recently, Watzele et al 125 proposed a yet another strategy to determine the ECSA of metal oxide catalysts…”
Section: Determination Of the Active Surface Area Of Nimentioning
confidence: 99%