From an FeP complex to FeP nanoparticles as efficient electrocatalysts for water-splitting
In large-scale, hydrogen production from water-splitting represents the most promising solution for a clean, recyclable, and low-cost energy source. The realization of viable technological solutions requires suitable efficient electrochemical catalysts with low overpotentials and long-term stability...
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| Veröffentlicht in: | Chemical science (Cambridge) 2018-11, Vol.9 (45), p.859-8597 |
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| creator | Yao, Shenglai Forstner, Viktoria Menezes, Prashanth W Panda, Chakadola Mebs, Stefan Zolnhofer, Eva M Miehlich, Matthias E Szilvási, Tibor Ashok Kumar, Nanjundan Haumann, Michael Meyer, Karsten Grützmacher, Hansjörg Driess, Matthias |
| description | In large-scale, hydrogen production from water-splitting represents the most promising solution for a clean, recyclable, and low-cost energy source. The realization of viable technological solutions requires suitable efficient electrochemical catalysts with low overpotentials and long-term stability for both hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) based on cheap and nontoxic materials. Herein, we present a unique molecular approach to monodispersed, ultra-small, and superiorly active iron phosphide (FeP) electrocatalysts for bifunctional OER, HER, and overall water-splitting. They result from transformation of a molecular iron phosphide precursor, containing a [Fe
2
P
3
] core with mixed-valence Fe
II
Fe
III
sites bridged by an asymmetric cyclo-P
(2+1)
3−
ligand. The as-synthesized FeP nanoparticles act as long-lasting electrocatalysts for OER and HER with low overpotential and high current densities that render them one of the best-performing electrocatalysts hitherto known. The fabricated alkaline electrolyzer delivered low cell voltage with durability over weeks, representing an attractive catalyst for large-scale water-splitting technologies.
The first β-diketiminato triphosphido diiron complex was synthesized as a versatile molecular single-source precursor for the production of functional FeP that acts as a powerful and durable bifunctional electrocatalyst for water splitting. |
| doi_str_mv | 10.1039/c8sc03407a |
| format | Article |
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2
P
3
] core with mixed-valence Fe
II
Fe
III
sites bridged by an asymmetric cyclo-P
(2+1)
3−
ligand. The as-synthesized FeP nanoparticles act as long-lasting electrocatalysts for OER and HER with low overpotential and high current densities that render them one of the best-performing electrocatalysts hitherto known. The fabricated alkaline electrolyzer delivered low cell voltage with durability over weeks, representing an attractive catalyst for large-scale water-splitting technologies.
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2
P
3
] core with mixed-valence Fe
II
Fe
III
sites bridged by an asymmetric cyclo-P
(2+1)
3−
ligand. The as-synthesized FeP nanoparticles act as long-lasting electrocatalysts for OER and HER with low overpotential and high current densities that render them one of the best-performing electrocatalysts hitherto known. The fabricated alkaline electrolyzer delivered low cell voltage with durability over weeks, representing an attractive catalyst for large-scale water-splitting technologies.
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2
P
3
] core with mixed-valence Fe
II
Fe
III
sites bridged by an asymmetric cyclo-P
(2+1)
3−
ligand. The as-synthesized FeP nanoparticles act as long-lasting electrocatalysts for OER and HER with low overpotential and high current densities that render them one of the best-performing electrocatalysts hitherto known. The fabricated alkaline electrolyzer delivered low cell voltage with durability over weeks, representing an attractive catalyst for large-scale water-splitting technologies.
The first β-diketiminato triphosphido diiron complex was synthesized as a versatile molecular single-source precursor for the production of functional FeP that acts as a powerful and durable bifunctional electrocatalyst for water splitting.</abstract><doi>10.1039/c8sc03407a</doi><tpages>8</tpages></addata></record> |
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| source | DOAJ Directory of Open Access Journals; PubMed Central Open Access; EZB-FREE-00999 freely available EZB journals; PubMed Central |
| title | From an FeP complex to FeP nanoparticles as efficient electrocatalysts for water-splitting |
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