Preliminary Study of ZnS:Mn2+ Quantum Dots Response Under UV and X-Ray Irradiation

Quantum Dots are semiconductor nanocrystals, with their optical properties controlled by their size, shape and material composition. The aim of the present study is to examine the scintillation properties of Manganese Doped Zinc Sulfide (ZnS:Mn2+) Quantum Dot (QDs) nanocrystals under UV and X-ray irradiation. ZnS:Mn2+ Quantum Dots, with typical diameter of ZnS dots of 13-20 nm (also called scintillation QDs, stQDs), were developed and acquired by Mesolight Inc. The initial stQD sample was a solution of 75mg of ZnS:Mn2+ dissolved in 100 mu L of Toluene, having a concentration of 75% w/v. Emission characteristics under UV and X-Ray excitation were examined. Two ultraviolet sources were incorporated (315 nm and 365 nm) as well as a medical X-ray tube with tube voltage from 50 to 130 kVp. Parameters such as Energy Quantum Efficiency under UV excitation and Luminescence Efficiency-LE (light energy flux over exposure rate) under X-ray excitation were examined. Luminescence Efficiency (LE) of ZnS:Mn2+ was higher than that exhibited by previously examined QDs, (ZnCdSeS: ZnS and ZnCuInS:ZnS). The ability of ZnS:Mn2+ to transform UV photons energy into optical photons energy, tends to increase while the incident UV wavelength decreases. Energy Quantum Efficiency of the sample exhibited a 6% increase when exposed to 315 nm UV light compared to 365 nm. The emission spectrum of the stQDs, exhibited a narrow peak (similar to 585 nm) in the yellow range.