Use of 2D Nanoplatelets to Improve The Sensitivity in Hybrid Photodetector For Indirect X-Ray Imaging

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Abstract

In this paper, we attempted to improve the detection sensitivity of an indirect X-ray detector through using a hybrid active layer composed of a poly [N-90-heptadecanyl–2,7-carbazole-alt-5,5-(40,70-di-2-thienyl-20,10,30-benzothiadiazole)] (PCDTBT) organic semiconductor and cadmium selenide nanoplatelets (CdSe NPLs) colloidal inorganic semiconductors. First, different blending ratio in the active layer (i.e., 2:1, 1:1, 1:2 and 1:3) of PCDTBT:CdSe NPL were examined, a sensitivity of 0.057 mA/Gy∙cm 2 was achieved using a 1:1 ratio due to the low series resistance (R S ) and defect density in this configuration. Then, the oleic acid (OA) that was initially applied in the CdSe NPL surface was replaced with pyridine ligands, this was done because the pyridine ligand is a short-chain ligand that can help charge transfer by reducing the distance between NPLs in the active layer. In addition, an experiment was conducted to determine the optimal ligand exchange time. A detector with an PCDTBT:CdSe NPL active layer fabricated using pyridine ligand exchange achieved a sensitivity of 0.14 mA/Gy∙cm 2 after an exchange time of 12 hours, this is an improvement of 155% compared to the detector using a PCDTBT:CdSe NPL with the original OA ligands. Lastly, the optimal thickness for the PCDTBT:CdSe NPL active layer was investigated. The highest mobility of 7.60 cm 2 /V∙s was recorded after fabricating the layer using spin-coating at 1900 rpm, the highest sensitivity of 0.20 mA/Gy∙cm 2 was also achieved under these conditions. Compared to the initial state of the detector, our modifications improved the sensitivity of the PCDTBT:CdSe NPL detector by 255%.

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last seen: 2026-05-19T01:45:01.086888+00:00