Nowotny phase Mo3+2xSi3C0.6 dispersed in a porous SiC/C matrix: A novel catalyst for hydrogen evolution reaction

The ternary Nowotny phase (NP), with a composition Mo3+2xSi3C0.6 (x = 0.9‐0.764), is found to be catalytically active in the field of electrochemical water splitting. The NP embedded in a porous SiC/C nanocomposite matrix is synthesized via a single‐source‐precursor approach which involves the react...

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Bibliographic Details
Published in:Journal of the American Ceramic Society 2020-01, Vol.103 (1), p.508-519
Main Authors: Feng, Yao, Yu, Zhaoju, Schuch, Jona, Tao, Shasha, Wiehl, Leonore, Fasel, Claudia, Jaegermann, Wolfram, Riedel, Ralf
Format: Article
Language:English
Subjects:
ceramic nanocomposites
Controlled atmospheres
Electrocatalysts
electrocatalytic activity
Heat treatment
hydrogen evolution reaction
Hydrogen evolution reactions
Molybdenum oxides
Nanocomposites
Nowotny phase
Polystyrene resins
Porosity
Porous media
Precursors
single‐source‐precursor
Ternary systems
Water splitting
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Summary:The ternary Nowotny phase (NP), with a composition Mo3+2xSi3C0.6 (x = 0.9‐0.764), is found to be catalytically active in the field of electrochemical water splitting. The NP embedded in a porous SiC/C nanocomposite matrix is synthesized via a single‐source‐precursor approach which involves the reaction of allylhydridopolycarbosilane with MoO2(acac)2. Thermal treatment of the single‐source‐precursor up to 1400°C in a protective atmosphere results in the in situ formation of nanocrystalline Mo3+2xSi3C0.6 immobilized in a thermally and corrosion‐stable SiC/C matrix. The weight fractions of the observed crystalline phases Mo3+2xSi3C0.6 and SiC amount to ca. 28 (26) and 72 (74) wt%, respectively, when prepared at 1400°C (1350°C). The porosity of the formed nanocomposite is adjusted by the addition of polystyrene (PS) as a pore former to the single‐source‐precursor resulting in a specific surface area up to 206 m2/g. The electrocatalytic activity of the Mo3+2xSi3C0.6/C/SiC nanocomposite with respect to the hydrogen evolution reaction (HER) is characterized by low over potentials of 22 and 138 mV vs reversible hydrogen electrode (RHE) for applying 1 and 10 mA cm−2 of current density, respectively. The analyzed electrocatalytic performance exceeds that of most Mo‐based electrocatalysts and shows high stability (over 90%) during 35 hours. The Nowotny phase Mo Si C (x = 0.9‐0.764) was found to be catalytically active in electrochemical water splitting. The electrocatalytic activity of the Mo Si C /C/SiC nanocomposite with respect to the hydrogen evolution reaction was characterized by low overpotentials of 22 and 138 mV vs reversible hydrogen electrode for applying 1 and 10 m A cm of current density, respectively, which exceeds that of most Mo‐based electrocatalysts and shows a high stability (over 90 %) during 35 h.
ISSN:0002-7820
1551-2916
DOI:10.1111/jace.16731