Iron-nitrogen-doped mesoporous tungsten carbide nanostructures as oxygen reduction electrocatalysts

Je Suk Moon; Young Woo Lee; Sang Beom Han; Da Hee Kwak; Kyung Hoon Lee; Ah Reum Park; Jung Inn Sohn; Seung Nam Cha; Kyung Won Park

doi:10.1039/c4cp01157k

Iron-nitrogen-doped mesoporous tungsten carbide nanostructures as oxygen reduction electrocatalysts

Je Suk Moon, Young Woo Lee, Sang Beom Han, Da Hee Kwak, Kyung Hoon Lee, Ah Reum Park, Jung Inn Sohn, Seung Nam Cha, Kyung Won Park

Department of Physics

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Since Pt-based catalysts have the disadvantages of high cost, large overpotential loss, and limited long-term stability, there have been various promising alternatives to Pt-based catalysts to improve the catalytic activity towards the oxygen reduction reaction (ORR). We have synthesized iron-nitrogen-doped mesoporous tungsten carbide catalysts (WC-m-FT) by pyrolysis of well-ordered mesoporous tungsten carbides with iron porphyrin. WC-m-FT exhibits excellent ORR catalytic activity in an alkaline medium, i.e. a high electron-transfer number as well as superior stability and methanol tolerance. The improved activity and stability of WC-m-FT are ascribed to iron-containing catalytic active sites surrounded by nitrogen species and the well-defined mesoporous tungsten carbide structure.

Original language	English
Pages (from-to)	14644-14650
Number of pages	7
Journal	Physical Chemistry Chemical Physics
Volume	16
Issue number	28
DOIs	https://doi.org/10.1039/c4cp01157k
State	Published - 28 Jul 2014

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title = "Iron-nitrogen-doped mesoporous tungsten carbide nanostructures as oxygen reduction electrocatalysts",

abstract = "Since Pt-based catalysts have the disadvantages of high cost, large overpotential loss, and limited long-term stability, there have been various promising alternatives to Pt-based catalysts to improve the catalytic activity towards the oxygen reduction reaction (ORR). We have synthesized iron-nitrogen-doped mesoporous tungsten carbide catalysts (WC-m-FT) by pyrolysis of well-ordered mesoporous tungsten carbides with iron porphyrin. WC-m-FT exhibits excellent ORR catalytic activity in an alkaline medium, i.e. a high electron-transfer number as well as superior stability and methanol tolerance. The improved activity and stability of WC-m-FT are ascribed to iron-containing catalytic active sites surrounded by nitrogen species and the well-defined mesoporous tungsten carbide structure.",

author = "Moon, {Je Suk} and Lee, {Young Woo} and Han, {Sang Beom} and Kwak, {Da Hee} and Lee, {Kyung Hoon} and Park, {Ah Reum} and Sohn, {Jung Inn} and Cha, {Seung Nam} and Park, {Kyung Won}",

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doi = "10.1039/c4cp01157k",

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T1 - Iron-nitrogen-doped mesoporous tungsten carbide nanostructures as oxygen reduction electrocatalysts

AU - Moon, Je Suk

AU - Lee, Young Woo

AU - Han, Sang Beom

AU - Kwak, Da Hee

AU - Lee, Kyung Hoon

AU - Park, Ah Reum

AU - Sohn, Jung Inn

AU - Cha, Seung Nam

AU - Park, Kyung Won

PY - 2014/7/28

Y1 - 2014/7/28

N2 - Since Pt-based catalysts have the disadvantages of high cost, large overpotential loss, and limited long-term stability, there have been various promising alternatives to Pt-based catalysts to improve the catalytic activity towards the oxygen reduction reaction (ORR). We have synthesized iron-nitrogen-doped mesoporous tungsten carbide catalysts (WC-m-FT) by pyrolysis of well-ordered mesoporous tungsten carbides with iron porphyrin. WC-m-FT exhibits excellent ORR catalytic activity in an alkaline medium, i.e. a high electron-transfer number as well as superior stability and methanol tolerance. The improved activity and stability of WC-m-FT are ascribed to iron-containing catalytic active sites surrounded by nitrogen species and the well-defined mesoporous tungsten carbide structure.

AB - Since Pt-based catalysts have the disadvantages of high cost, large overpotential loss, and limited long-term stability, there have been various promising alternatives to Pt-based catalysts to improve the catalytic activity towards the oxygen reduction reaction (ORR). We have synthesized iron-nitrogen-doped mesoporous tungsten carbide catalysts (WC-m-FT) by pyrolysis of well-ordered mesoporous tungsten carbides with iron porphyrin. WC-m-FT exhibits excellent ORR catalytic activity in an alkaline medium, i.e. a high electron-transfer number as well as superior stability and methanol tolerance. The improved activity and stability of WC-m-FT are ascribed to iron-containing catalytic active sites surrounded by nitrogen species and the well-defined mesoporous tungsten carbide structure.

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JF - Physical Chemistry Chemical Physics

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Iron-nitrogen-doped mesoporous tungsten carbide nanostructures as oxygen reduction electrocatalysts

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