TY - JOUR T1 - Thermostimulated luminescence and photoluminescence of microcrystalline zinc sulphide ZnS:Cu AU - I.I. Donchev AU - T.S. Kavetskyy AU - O.R. Mushynska AU - O.V. Zubrytska AU - I.V. Briukhovetska AU - A.M. Pryima AU - H.Y. Kovalchuk AU - N.K. Hoivanovych AU - L.M. Kropyvnytska AU - Y.Y. Pavlyshak AU - T.B. Skrobach AU - G.M. Kossak AU - V.I. Stakhiv AU - S.S. Monastyrska AU - A.E. Kiv JO - Semiconductor Physics, Quantum Electronics & Optoelectronics VL - 25 IS - 4 SP - 441 EP - 445 PY - 2022 DO - 10.15407/spqeo25.04.441 UR - https://doi.org/10.15407/spqeo25.04.441 AB - Being based on the known model of a cylindrical nanopore created using the classical method of molecular dynamics, we have studied the patterns of electrolyte flow passing through a nanocylinder, which is used to simulate an ion-induced track in a thin film. In this study, the nanotrack model takes into account the defect structure of the nanotracks inner surface. A model of a structural defect, which is an adsorption center for model particles passing through a nanocylinder, has been described. It was revealed the sensitivity of the electrolyte flux density to its composition, which is explained by interaction of particles passing through the nanocylinder with structural defects of its inner surface. This effect enables to create a biosensor system for detecting the low concentration of impurities of various types in liquid. KW - thermoluminescence KW - photoluminescence KW - zinc sulfide ZnS:Cu KW - annealing KW - SHS method. ER -