Currently,
identifying suitable photocatalysts, especially in two-dimensional
materials, for photocatalytic water splitting is still challenging.
Here, we report the identification of BeN2 and MgN2 monolayers as efficient photocatalysts for water spitting.
Our phonon spectra and ab initio molecular dynamics simulations provide
eloquent examinations for the dynamical and thermal stabilities of
these two monolayers. We find that BeN2 monolayer exhibits
a direct band gap of 2.26 eV, whereas MgN2 monolayer shows
an indirect band gap of 2.33 eV. The carrier mobility for BeN2 monolayer is up to 105 and 104 cm2 V–1 s–1 for MgN2 monolayer. More importantly, the BeN2 monolayer has appropriate
band edge alignment with respect to the water reduction and oxidation
levels in water splitting, whereas MgN2 monolayer satisfies
the reduction levels in water splitting only. These results imply
that BeN2 monolayer can be a potential photocatalyst for
water splitting, whereas MgN2 monolayer can be a potential
hydrogen production material.
Two-dimensional (2D) materials have been extensively investigated since the exfoliation of graphene. Due to the excellent and versatile properties, the promising applications in novel nanodevices have been proposed in the last few years. Here, we chose three stable 2D materials which have been experimentally synthesized and have potential to be used for next-generation nanodevices, namely semiconducting MoS 2 , Janus MoSSe, and magnetic CrI 3 , to review their electronic/ magnetic properties, and reveal the relationship of the propertiesapplications in devices. The showcase review on property-application is expected to provide new research insights into the investigations of 2D materials.
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