MoS2 versatile spray-coating of 3D electrodes for the hydrogen evolution reaction

journal article in Web of Science

English

A facile one-step MoS2 spray-coating method was applied to a range of rigid, flexible, porous and 3D printed carbon-based surfaces, yielding high loadings in MoS2 flakes. The characterization of MoS2 flakes from a commercial lubricant spray reveals up to micron-scale bulk sheets of the layered material, constituted in its majority by the semiconducting 2H polymorph, in the presence of the metallic 1T phase. Consequently, the process generates MoS2 spray-coated surfaces with improved hydrogen evolution reaction (HER) catalytic performance. In the case of carbon-based screen printed electrodes (SPE), a short-term thermal post-treatment of the MoS2 spray-coated SPE had a further beneficial effect in the HER overpotential. The MoS2 spray-coated 3D metallic meshes held the lowest HER overpotential of the series. Finally, MoS2 spray-coated 3D printed electrodes yielded improved heterogeneous charge transfer and a 500 mV shift in the required overpotential at a current density of -10 mA cm(-2). The MoS2 spray-coated 3D printed electrode displayed an abundant coverage at the inner, external and planar zones of electrodes by the MoS2 sheets, even after long-term operation conditions. These outcomes can be beneficial for future tailoring of MoS2 spray-coated surfaces and their implementation in energy conversion technologies.

BLACK PHOSPHORUS; LAYER MOS2; PERFORMANCE; NANOSHEETS; EFFICIENT

GUSMÃO, R.; SOFER, Z.; MARVAN, P.; PUMERA, M.

28. 5. 2019

2040-3372

Nanoscale

11

20

United Kingdom of Great Britain and Northern Ireland

9888

9895

8

https://pubs.rsc.org/en/content/articlelanding/2019/NR/C9NR01876J#!divAbstract