Large bulk photovoltaic effect and second-harmonic generation in few-layer pentagonal semiconductors PdS2 and PdSe2

Abstract

Recently, atomically thin PdSe2 semiconductors with rare pentagonal Se-Pd-Se monolayers were synthesized and were also found to possess superior properties such as ultrahigh air stability, and high carrier mobility, thus offering a new family of two-dimensional (2D) materials for exploration of 2D semiconductor physics and for applications in advanced opto-electronic and nonlinear photonic devices. In this work, we systematically study the nonlinear optical (NLO) responses [namely, bulk photovoltaic effect (BPVE), second-harmonic generation (SHG) and linear electric-optic (LEO) effect] of noncentrosymmetric bilayer (BL) and four-layer (FL) PdS2 and PdSe2 by applying the first-principles density functional theory with the generalized gradient approximation plus scissors-correction. First of all, the shift current conductivity is in the order of 130 μA/V2, being very high compared to known BPVE materials. Similarly, their injection current susceptibilities are in the order of 100×108A/V2s, again being large. Secondly, the SHG coefficients ((2)) of these materials are also large, being one order higher than that of the best-known few-layer group 6B transition metal dichalcogenides. For example, the maximum magnitude of (2) can reach 1.4×103 pm/V for BL PdSe2 at 1.9 eV and 1.2×103 pm/V at 3.1 eV for BL PdS2. Thirdly we find significant LEO coefficients for these structures in the low photon energy. All these indicate that 2D PdX2 semiconductors will find promising NLO applications. Fourthly, we find that the large BPVE and SHG of the few-layer PdX2 structures are due to strong intralayer directional covalent bonding and also 2D quantum confinement.

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