Issue 7, 2023

Revisiting two thiophosphate compounds constituting d0 transition metal HfP2S6 and d10 transition metal α-Ag4P2S6 as multifunctional materials for combining second harmonic generation response and photocurrent response

Abstract

Two acentric thiophosphate compounds, HfP2S6 and α-Ag4P2S6, are revisited and studied as infrared nonlinear optical materials. HfP2S6 and α-Ag4P2S6 were structurally characterized without any property measurements. In this work, HfP2S6 and α-Ag4P2S6 were synthesized via high temperature salt flux reactions. Low-temperature polymorph acentric α-Ag4P2S6 was purified and grown as mm-sized crystals with the aid of AgBr flux. The AgBr flux was revealed to play an important role in stabilizing the acentric α-Ag4P2S6. The acentric α-Ag4P2S6 transforms to centrosymmetric β-Ag4P2S6 at 850(5) K, which is revealed by differential scanning calorimetry (DSC) analysis and powder X-ray diffraction experiments. HfP2S6 and α-Ag4P2S6 are discovered by UV-vis spectrum measurements as indirect bandgap semiconductors with bandgaps of 2.2(1) eV and 2.5(1) eV, respectively, which is supported by DFT calculations and TB-LMTO-ASA calculations. The bonding pictures of α-Ag4P2S6 were studied by crystal orbital Hamilton population calculations (COHP) coupled with electron localization function (ELF) analysis. DFT calculations predict that HfP2S6 and α-Ag4P2S6 would exhibit different optical performances regardless of being constructed from identical [P2S6] motifs. HfP2S6 exhibits a low second harmonic generation (SHG) response, ∼0.21 × AGS (for the sample of particle size of 25 μm). α-Ag4P2S6 possesses moderate SHG response, ∼0.61 × AGS (for the sample of particle size of 225 μm) coupled with a high laser damage threshold (LDT) of ∼3.2 × AGS. Characteristics of high ambient stability, moderate bandgap and SHG response, type-I phase-matching capability, and high LDT together with the easy growth of large crystals make α-Ag4P2S6 attractive for future infrared nonlinear optical applications. Photocurrent measurements found that α-Ag4P2S6 and β-Ag4P2S6 have high photocurrent response, 165 nA cm−2 and 135 nA cm−2, respectively. α-Ag4P2S6 is a new multifunctional material of the ternary Ag–P–S system, which combines nonlinear optical (NLO) properties and photocurrent response.

Graphical abstract: Revisiting two thiophosphate compounds constituting d0 transition metal HfP2S6 and d10 transition metal α-Ag4P2S6 as multifunctional materials for combining second harmonic generation response and photocurrent response

Supplementary files

Article information

Article type
Paper
Submitted
22 Nov 2022
Accepted
17 Jan 2023
First published
18 Jan 2023

CrystEngComm, 2023,25, 1175-1185

Author version available

Revisiting two thiophosphate compounds constituting d0 transition metal HfP2S6 and d10 transition metal α-Ag4P2S6 as multifunctional materials for combining second harmonic generation response and photocurrent response

C. Cropek, B. Ji, A. Sarkar, F. Wang, T. H. Syed, W. Wei, S. Guo and J. Wang, CrystEngComm, 2023, 25, 1175 DOI: 10.1039/D2CE01576E

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