Carbon-supported Mo2C electrocatalysts for hydrogen evolution reaction

Author(s): B. Šljukić ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , M. Vujković ⁶ ^, ⁷ ^, ⁸ ^, ⁹ , L. Amaral ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , D. M. F. Santos ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , R. P. Rocha ¹⁰ ^, ¹¹ ^, ¹² ^, ¹³ ^, ⁵ , C. A. C. Sequeira ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , J. L. Figueiredo ¹⁰ ^, ¹¹ ^, ¹² ^, ¹³ ^, ⁵

Publication date (Electronic): 2015

Journal: Journal of Materials Chemistry A

Publisher: Royal Society of Chemistry (RSC)

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Abstract

Molybdenum carbide (Mo ₂C) nanoparticles supported on carbon nanotubes and on carbon xerogel were evaluated as electrocatalysts for HER in acid media, showing good performance and stability.

Abstract

Molybdenum carbide (Mo ₂C) nanoparticles supported on two different carbon materials, carbon nanotubes and carbon xerogel, were prepared and characterised using X-ray diffraction, thermogravimetric analysis, scanning and transmission electron microscopy, nitrogen sorption and X-ray photoelectron spectroscopy. The analyses showed similar composition ( ca. 27 wt% of Mo ₂C) and crystallite size (22–28 nm) for the two samples, but significantly different morphologies and specific surface areas. These were subsequently tested as electrocatalysts for hydrogen evolution reaction (HER) in acid media. Using linear scan voltammetry and electrochemical impedance measurements the main reaction parameters were determined, including Tafel slope, charge transfer coefficient and exchange current density. Capacitance properties were examined and correlated with the electrocatalysts activity for HER. The stability of the two materials was also investigated and proved to be very good.

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Most cited references 39

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Sustainable hydrogen production.

John A. Turner (2004)

Identifying and building a sustainable energy system are perhaps two of the most critical issues that today's society must address. Replacing our current energy carrier mix with a sustainable fuel is one of the key pieces in that system. Hydrogen as an energy carrier, primarily derived from water, can address issues of sustainability, environmental emissions, and energy security. Issues relating to hydrogen production pathways are addressed here. Future energy systems require money and energy to build. Given that the United States has a finite supply of both, hard decisions must be made about the path forward, and this path must be followed with a sustained and focused effort.

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Anomalous increase in carbon capacitance at pore sizes less than 1 nanometer.

J Chmiola, G Yushin, Y Gogotsi … (2006)

Carbon supercapacitors, which are energy storage devices that use ion adsorption on the surface of highly porous materials to store charge, have numerous advantages over other power-source technologies, but could realize further gains if their electrodes were properly optimized. Studying the effect of the pore size on capacitance could potentially improve performance by maximizing the electrode surface area accessible to electrolyte ions, but until recently, no studies had addressed the lower size limit of accessible pores. Using carbide-derived carbon, we generated pores with average sizes from 0.6 to 2.25 nanometer and studied double-layer capacitance in an organic electrolyte. The results challenge the long-held axiom that pores smaller than the size of solvated electrolyte ions are incapable of contributing to charge storage.

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Molybdenum boride and carbide catalyze hydrogen evolution in both acidic and basic solutions.

Heron Vrubel, Xile Hu (2012)

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Author and article information

Journal

Journal ID (publisher-id): JMCAET

Title: Journal of Materials Chemistry A

Abbreviated Title: J. Mater. Chem. A

Publisher: Royal Society of Chemistry (RSC)

ISSN (Print): 2050-7488

ISSN (Electronic): 2050-7496

Publication date Created: 2015

Publication date (Electronic): 2015

Volume: 3

Issue: 30

Pages: 15505-15512

Affiliations

[1 ]Center of Physics and Engineering of Advanced Materials (CeFEMA)

[2 ]Instituto Superior Técnico

[3 ]Universidade de Lisboa

[4 ]1049-001 Lisbon

[5 ]Portugal

[6 ]Faculty of Physical Chemistry

[7 ]University of Belgrade

[8 ]11158 Belgrade

[9 ]Serbia

[10 ]Laboratory of Catalysis and Materials – Associate Laboratory LSRE-LCM

[11 ]Faculdade de Engenharia

[12 ]Universidade do Porto

[13 ]4200-465 Porto

Article

DOI: 10.1039/C5TA02346G

SO-VID: cb587fde-3f3c-48f2-b39e-45ac617c9f3e

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Carbon-supported Mo2C electrocatalysts for hydrogen evolution reaction

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Most cited references 39

Sustainable hydrogen production.

Anomalous increase in carbon capacitance at pore sizes less than 1 nanometer.

Molybdenum boride and carbide catalyze hydrogen evolution in both acidic and basic solutions.

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