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A Universal Strategy for Synthesis of 2d Ternary Transition Metal Phosphorous Chalcogenides

来源: 作者: 发布时间:2023-10-09

Abstract

The two-dimensional (2D) ternary transition metal phosphorous chalcogenides (TMPCs) have attracted extensive research interest due to their widely tunable band gap, rich electronic properties, inherent magnetic and ferroelectric properties. However, the synthesis of TMPCs via chemical vapor deposition (CVD) is still challenging since it is difficult to control reactions among multi-precursors. Here, we propose a subtractive element growth mechanism to controllably synthesize the TMPCs. Based on the growth mechanism, the TMPCs including FePS3, FePSe3, MnPS3, MnPSe3, CdPS3, CdPSe3, In2P3S9 and SnPS3 are achieved successfully and further confirmed by Raman, second harmonic generation (SHG) and scanning transmission electron microscopy (STEM). The typical TMPCs – SnPS3 shows a strong SHG signal at 1064 nm, with an effective nonlinear susceptibility χ(2) of 8.41×10−11 m V−1, which is about 8 times of that in MoS2. And the photodetector based on CdPSe3 exhibits superior detection performances with responsivity of 582 mA/W, high detectivity of 3.19 × 1011 Jones and fast rise time of 611 μs, which is better than most previously reported TMPCs based photodetectors. These results demonstrate the high quality of TMPCs and promote the exploration of the optical properties of 2D TMPCs for their applications in optoelectronics.

A Universal Strategy for Synthesis of 2d Ternary Transition Metal Phosphorous Chalcogenides - Yang - Advanced Materials - Wiley Online Library