| 초록 |
Desired material properties in layered transition metal dichalcogenides can be realized by understanding their growth behavior, which is predominantly affected by the growth mechanism and energetics. Particularly for electrocatalytic applications, where porous carbons are predominantly used as conductive support, understanding their growth behavior on porous carbon surfaces is of critical importance. In this work, we synthesized MS2 (M = Mo or W) nanoplates embedded on porous carbon nanorod arrays (MS2@OMCs) by limiting their growth space in nanoscale. We found that vertical growth is favored in MoS2 to generate multiply stacked MoS2 nanoplates, whereas the horizontal growth is preferred in WS2 to give rise to monolayer nanoplates. We theoretically explored the energetics of MS2 according to their growth orientation. The stacking energies for MoS2 were larger than those for WS2, confirming the experimental results. We applied WS2@OMCs as electrocatalysts for hydrogen evolution reaction (HER). WS2@OMCs exhibit high catalytic activity with a low overpotential of 179 mV vs. RHE (at 10 mA cm-2) and low Tafel slope of 63 mV sec-1. |
