English Abstract
ABSTRACT:
The effects of (hydrogen/halogen)–edge termination on the structural, electronic, and optical properties of
planar SiNRs with either zigzag (ZSiNRs) and armchair (ASiNRs) edges are investigated by means of DFT cal�culations. The obtained results show that X-edge termination is a new approach to tune and open the band gap in planar SiNRs, and exhibiting a metallic character. The density of states (DOS) analysis reveals a strong hy�bridization between halogen-p and edges Si-p states, which is not the case of H-s and edges Si-p states. The calculated charge density contours manifest the ionic nature of Si–X (X = H, F, Cl, Br, and I) bonds. However, the Si–Si bonds display a typical covalent bonding feature. The investigation of the optical properties for both po�larizations indicates that 7-ASiNR-X and 5-ZSiNR-X exhibit strong optical anisotropy in infrared (IR), visible (VIS), and ultraviolet (UV) regions under both polarizations, making them promising candidates for optoelec�tronics and optical nanodevices such as polarization-sensitive photodetectors. Besides, for perfect planar ASiNR and ZSiNR, the strong absorbance peak of ε yy
2 (ω) has been found to occur at 0.32 (0.36) eV, respectively, sug�gesting that these compounds may be candidates for IR optoelectronic devices. The most dominant absorption peaks centred at 5.17 and 4.5 eV for ASiNR-H and ZSiNR-H systems, respectively, indicate a high absorbance in the UV range, making them prospective nanomaterials for photovoltaic devices.
