A 0D lead-free Nickel halide-based perovskite exhibiting greenish light emission and high color rendering index

Abstract

In this paper, a novel low-dimensional Ni(II)-based hybrid perovskite compound [(C3H7)4N]Ni2Cl6 endowed with interesting solid-state light-emission properties has been investigated using thermal (TGA-DSC), Hirshfeld surfaces, FT-Infrared spectroscopy, optical and photoluminescence measurements. The structure packing consists of 0D framework ascribed as a layered arrangement of organic and dimeric [Ni2Cl6]1− groups perpendicular to the crystallographic c axis and stabilized by means of weak intermolecular bonds yielding a 3D framework. The UV-visible investigation reveals a direct optical gap energy of value 3.72 eV, confirming the semi-conducting nature of the elaborated material. The photoluminescence properties reveals a greenish broad-band emission caused by self-trapped excitonic states (STESs) as well as the remarquable the inorganic tetrahedron distortion in the 0D crystal dimensionality. Such bright light emission yields to good luminescence properties with a very high CRI value of 96, CIE color coordinates of (0.32; 0.35), and a CCT value of 5722 K and. The Stokes shift between excitation wavelengths (325, 345, 375, 395 nm) and their corresponding emission bands (450, 460, 472, 480 nm) are discussed. The current findings could be used for the development of environment-friendly hybrid perovskites for UV and solar cell applications.