Suppression strategy of interfacial defects: γ-ray-induced nano structural rearrangement of NiOx sol-gel for highly sensitive organic photodetectors

This study investigated the effects of γ-ray treatment on the NiOx (γ-Fixing NiOx) interlayer and the consequent impact on the performance of organic photodetectors. γ-Fixing NiOx sol-gels had reduced particle size distribution (4.26 ± 0.65 nm) and exhibit improved uniformity. The root-mean-square (RMS) roughness analysis revealed that the γ-Fixing sample exhibited 1.12 nm. It was 51.35 % higher than that of the Pristine sample but 54.29 % lower than that of the conventional Fixing sample. XPS analysis showed concurrent intensity increases in both oxidation states from pristine to γ-Fixing: Ni2O3 (856.5 eV, +0.89 %) and NiO (854.0 eV, +1.81 %). This resulted in a modified NiO/Ni2O3 ratio (1.003→1.013), supported by decreased Ni:O ratios (1:1.81→1:1.40) from EDS analysis , enhanced Ni-O bonding (676 cm−1) in FT-IR spectra , and improved oxidation resistance (Eonset,ox: 0.38 V→0.41 V) as shown in cyclic voltammetry data . These structural changes enhanced the electrical properties of the NiOx film, thereby significantly improving the performance of the fabricated organic photodetectors. The γ-Fixing device exhibited a 99.29 % reduction in dark current density to 8.00 × 10−11 A/cm2, an improved ideality factor of 1.38, and a 30.87 % decrease in the defect state energy to 71.2 meV. Furthermore, the external quantum efficiency was > 80 % in the visible range and shot noise-limited detectivity was 1.00 × 1014 Jones - an 11.65-fold improvement in relation to that of the untreated sample. These findings demonstrated that γ-ray treatment effectively enhances the properties of the NiOx interlayer and would promote developing high-performance organic photodetectors. [Display omitted] •γ-ray treatment uniformly modifies NiOx sol-gel properties.•γ-ray treatment reduces charge recombination at the NiOx/active layer interface.•γ-ray treatment optimizes NiOx surface energy for PM6:Y6 active layer compatibility.•γ-ray treatment enhances NiOx hole extraction and electron blocking.•Dark current of γ-Fixing NiOx reduces by 99.29 %, 11.65-fold increased detectivity.