Materials Letters, Volume 272 , 01/08/2020
Hollow molybdenum oxide-graphene oxide spheres as a binder-free electrocatalyst membrane with enhanced hydrogen evolution efficiency
Abstract
To make electrochemical water splitting to produce hydrogen realistic, earth-abundant and low-cost electrocatalysts need to be developed. In this work, we demonstrate a facile strategy to synthesize decorated molybdenum oxide (MoO<inf>2</inf>) nanoparticles on graphene oxide (GO) layers. With GO sheets, hollow spheres of MoO<inf>2</inf>-G are formed. Incorporation of the MoO<inf>2</inf>-G balls into a cryogel, subsequent freeze-drying and carbonization, gives a conducting MoO<inf>2</inf>-G macroporous membrane. The hybrid membrane exhibits excellent performance for HER with a Tafel slope of 52 mV dec<sup>-1</sup> at an onset potential of −100 mV and high stability, reflected in the stable cathodic current over 23 h. of operation.
Document Type
Article
Source Type
Journal
Keywords
Binder-free catalystHydrogen evolution reactionMolybdenum oxidePorous membraneTransition metals
ASJC Subject Area
Materials Science : Materials Science (all)Engineering : Mechanical EngineeringEngineering : Mechanics of MaterialsPhysics and Astronomy : Condensed Matter Physics
Funding Agency
Thailand Research Fund