Abstract
Many 2D few-layer materials show piezoelectric or pyroelectric effects due to the loss-of-inversion symmetry induced by broken structure, although they are not piezoelectric or pyroelectric in the bulk. In this work, we find that the puckered graphene-like 2D few-layer black phosphorene is pyroelectric and shows a pyro-catalytic effect, where the pyroelectric charges generated under ambient cold–hot alternation are utilized for hydrogen evolution and dye molecule decomposition. Under thermal cycling between 15 °C and 65 °C, the 2D few-layer black phosphorene shows a direct hydrogen generation of about 540 μmol per gram of catalyst after 24 thermal cycles and about 99% decomposition of Rhodamine B dye after 5 thermal cycles. This work opens a door for the pyro-catalytic energy harvesting from the cold–hot alternations by a class of 2D few-layer materials.
Highlights
Many 2D few-layer materials show piezoelectric or pyroelectric effects due to the loss-ofinversion symmetry induced by broken structure, they are not piezoelectric or pyroelectric in the bulk
The scanning electron microscopy (SEM) image shows that thin and transparent 2D few-layer black phosphorene (2D-BP) nanosheets were spread on Si substrate
Energy dispersive X-ray spectroscopy (EDS) in Fig. 2b shows the existence of phosphorous (81.33%), Al (3.96%), and Au (14.71%), where Al and Au come from the sample holder and the sputtered Au coating on the powder sample, respectively
Summary
Many 2D few-layer materials show piezoelectric or pyroelectric effects due to the loss-ofinversion symmetry induced by broken structure, they are not piezoelectric or pyroelectric in the bulk. We demonstrate the pyro-catalytic behavior of 2D-BP via hydrogen evolution and dye decomposition in a roomtemperature thermal cycling between 15 °C and 65 °C. The pyro-catalytic hydrogen evolution of the 2D-BP is around 17.8 μmol g−1 per 15–65 °C thermal cycle with the addition of Na2S and Na2SO3 as sacrificial agent (Supplementary Fig. 1).
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