Observation of optical anisotropy and a linear dichroism transition in layered silicon phosphide

• Published in: Nanoscale Vol. 15; no. 29; pp. 12388 - 12397
• Main Authors: Xie, Xing, Ding, Junnan, Wu, Biao, Zheng, Haihong, Li, Shaofei, Wang, Chang-Tian, He, Jun, Liu, Zongwen, Wang, Jian-Tao, Duan, Ji-an, Liu, Yanping
• Format: Journal Article
• Language: English
• Published: England Royal Society of Chemistry 27.07.2023
• Subjects: Absorption; Anisotropy; Crystal structure; Dichroism; Electron phonon interactions; Excitons; Mechanical properties; Optical properties; Periodic variations; Phonons; Phosphides; Photoluminescence; Photometers; Physical properties; Polarization; Silicon; Spectra; Temperature dependence; Thermal expansion
• ISSN: 2040-3364; 2040-3372
• DOI: 10.1039/d3nr01765f

The investigation of in-plane two-dimensional (2D) anisotropic materials has garnered significant attention due to their exceptional electronic, optical, and mechanical characteristics. The anisotropic optical properties and angle-dependent photodetectors based on 2D anisotropic materials have been extensively studied. However, novel in-plane anisotropic materials still need to be explored to satisfy for distinct environments and devices. Here, we report the remarkable anisotropic behavior of excitons and demonstrate a unique linear-dichroism transition of absorption between ultraviolet and visible light in layered silicon phosphide (SiP) through the analysis of polarization photoluminescence (PL) and absorbance spectra. Its high absorption linear dichroism ratio of 1.16 at 388 nm, 1.15 at 532 nm, and 1.19 at 733 nm is revealed, suggesting the brilliant non-isotropic responses. The robust periodic variation of the A 1 and A 2 Raman modes in 2D SiP materials allows for the determination of their crystal orientation. Furthermore, the presence of indirect excitons with phonon sidebands in the temperature-dependent PL spectra exhibits non-monotonic energy shifts with increasing temperature, which is attributed to an enhanced electron-phonon interaction and thermal expansion. Our findings provide valuable insights into the fundamental physical properties of layered SiP and offer guidelines for designing polarization-sensitive photodetectors and angle-dependent devices based on 2D anisotropic materials. Raman polarization spectra, temperature-dependent photoluminescence (PL), and anisotropic absorption with a linear dichroism transition were studied to gain insights into the physical properties of SiP materials.