Preparation of Mo2C–carbon nanomaterials for hydrogen evolution reaction
Highly active, stable and low-cost noble metal-free electrocatalysts are essential for production of hydrogen. However, preparation of such catalysts is still highly challenging so far. In this work, the Mo2C–carbon nanomaterials have been prepared by controlled thermal technique. By controlling con...
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| Published in: | Carbon Letters Vol. 29; no. 3; pp. 225 - 232 |
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| Main Authors: | , , , , , , , |
| Format: | Journal Article |
| Language: | English |
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Springer Nature B.V
01-06-2019
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| Abstract | Highly active, stable and low-cost noble metal-free electrocatalysts are essential for production of hydrogen. However, preparation of such catalysts is still highly challenging so far. In this work, the Mo2C–carbon nanomaterials have been prepared by controlled thermal technique. By controlling concentration of the reactants in the experimental condition, the Mo2C–carbon nanomaterials have been fabricated, which leads to decreases in contact resistance b/w Mo2C–carbon nanomaterials and graphitic carbon atoms. As a result, the Mo2C–carbon nanomaterial electrode shows remarkable activity for hydrogen evolution reactions with a small onset overpotential of 95 mV, a Tafel slope of 62 mV dec−1, an high exchange current density of 0.32 mA cm−2, good stability during long-term 1000 cycles and exhibits long-term durability for several days. This study opens a new method for the preparation of highly active non-noble electrode for production of hydrogen from water splitting. |
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| AbstractList | Highly active, stable and low-cost noble metal-free electrocatalysts are essential for production of hydrogen. However, preparation of such catalysts is still highly challenging so far. In this work, the Mo2C–carbon nanomaterials have been prepared by controlled thermal technique. By controlling concentration of the reactants in the experimental condition, the Mo2C–carbon nanomaterials have been fabricated, which leads to decreases in contact resistance b/w Mo2C–carbon nanomaterials and graphitic carbon atoms. As a result, the Mo2C–carbon nanomaterial electrode shows remarkable activity for hydrogen evolution reactions with a small onset overpotential of 95 mV, a Tafel slope of 62 mV dec−1, an high exchange current density of 0.32 mA cm−2, good stability during long-term 1000 cycles and exhibits long-term durability for several days. This study opens a new method for the preparation of highly active non-noble electrode for production of hydrogen from water splitting. |
| Author | Du, Ran Feng, Quinliang Zhang, Jin Seeram, Ramakrishna Reddy, Sathish He, Liumin Song, Li Kang, Lixing |
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| CitedBy_id | crossref_primary_10_1016_j_envres_2023_116223 crossref_primary_10_3390_en14051320 crossref_primary_10_1016_j_jiec_2021_09_027 |
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| Snippet | Highly active, stable and low-cost noble metal-free electrocatalysts are essential for production of hydrogen. However, preparation of such catalysts is still... |
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| SubjectTerms | Atoms & subatomic particles Carbon Catalysts Contact resistance Electrocatalysts Electrodes Graphite Hydrogen Hydrogen evolution reactions Hydrogen production Molybdenum Morphology Nanomaterials Nanotechnology Noble metals Oxidation Scanning electron microscopy Spectrum analysis Voltammetry Water splitting |
| Title | Preparation of Mo2C–carbon nanomaterials for hydrogen evolution reaction |
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