Conductive metal-organic framework (MOF) materials have been recently considered as effective electrocatalysts. However, they usually suffer from two major drawbacks, poor electrochemical stability and low electrocatalytic activity in bulk form. Here, we have developed a rational strategy to fabricate a promising electrocatalyst composed of a nanoscale conductive copper-based MOF (Cu-MOF) layer fully supported over synergetic iron hydr(oxy)oxide [Fe(OH)x] nanoboxes. Owing to the highly exposed active centers, enhanced charge transfer, and robust hollow nanostructure, the obtained Fe(OH)x@Cu-MOF nanoboxes exhibit superior activity and stability for the electrocatalytic hydrogen evolution reaction (HER). Specifically, it needs an overpotentia...
To apply electrically nonconductive metal-organic frameworks (MOFs) in an electrocatalytic oxygen re...
Metal-organic framework (MOF) is a powerful material for electrocatalytic applications due to its st...
Metal–organic framework (MOF) derivatives are among the most promising catalysts for the hydrogen ev...
The electrolysis of water is an efficient and environmentally friendly technology for large-scale hy...
Hydrogen production using novel catalysts is regarded as one of the most needed technology for the f...
[EN] Metal-organic frameworks (MOFs) with redox properties are potentially good candidates as noble-...
Metal-organic-frameworks (MOFs) have been of much interest as potential effective electrocatalysts f...
Electrochemical water splitting has attracted significant attention as a key pathway for the develop...
Research on the synthesis of nanomaterials using metal-organic frameworks (MOFs), which are characte...
The rapid development of hydrogen energy is strongly dependent on the economic and efficient product...
Copper (Cu) provides a cost-effective means of producing value-added fuels through the electrochemic...
Metal sulfide electrocatalyst is developed as a cost-effective and promising candidate for hydrogen ...
Conversion of carbon dioxide (CO 2 ) to useful chemicals is considered a potential solution to resol...
The electrochemical reduction of CO2 to ethylene provides a carbon-neutral avenue for the conversion...
Nickel-iron foam (NFF) has high air permeability and a high specific surface area because of its con...
To apply electrically nonconductive metal-organic frameworks (MOFs) in an electrocatalytic oxygen re...
Metal-organic framework (MOF) is a powerful material for electrocatalytic applications due to its st...
Metal–organic framework (MOF) derivatives are among the most promising catalysts for the hydrogen ev...
The electrolysis of water is an efficient and environmentally friendly technology for large-scale hy...
Hydrogen production using novel catalysts is regarded as one of the most needed technology for the f...
[EN] Metal-organic frameworks (MOFs) with redox properties are potentially good candidates as noble-...
Metal-organic-frameworks (MOFs) have been of much interest as potential effective electrocatalysts f...
Electrochemical water splitting has attracted significant attention as a key pathway for the develop...
Research on the synthesis of nanomaterials using metal-organic frameworks (MOFs), which are characte...
The rapid development of hydrogen energy is strongly dependent on the economic and efficient product...
Copper (Cu) provides a cost-effective means of producing value-added fuels through the electrochemic...
Metal sulfide electrocatalyst is developed as a cost-effective and promising candidate for hydrogen ...
Conversion of carbon dioxide (CO 2 ) to useful chemicals is considered a potential solution to resol...
The electrochemical reduction of CO2 to ethylene provides a carbon-neutral avenue for the conversion...
Nickel-iron foam (NFF) has high air permeability and a high specific surface area because of its con...
To apply electrically nonconductive metal-organic frameworks (MOFs) in an electrocatalytic oxygen re...
Metal-organic framework (MOF) is a powerful material for electrocatalytic applications due to its st...
Metal–organic framework (MOF) derivatives are among the most promising catalysts for the hydrogen ev...