PL418407A1 - Method for producing thin film converter of electromagnetic radiation, based on the quasi-zero-dimensional structure and the thin film converter of electromagnetic radiation, based on the quasi-zero-dimensional structure produced by this method - Google Patents

Abstract

Thin-layer electromagnetic radiation converter based on the quasizer-dimensional structure of quantum dots, having a layered structure equipped with a positive electrode and a negative electrode, characterized by the fact that it consists of two external glass plates (1 and 2) with a thickness of g = 0.5 - 4.0 mm, thermally hardened or chemically strengthened by means of ions in a brine bath, the internal surfaces of which are inseparably connected with transparent conductive layers of metal oxides, preferably TCO (3 and 4) with a thickness of 400 - 600 nm, equipped at their opposite ends with a positive electrode (7 ) and a negative electrode (8), whereby the conductive layer (3) together with its positive electrode (7) is inseparably connected with nanoparticle - a semiconductor layer of titanium dioxide TiO2 (9) with a thickness of 500 - 2000 nm, and with which it is permanently connected zero-layer layer structure by spray method quantum ops (10) 50 - 600 nm thick and 2 - 12 nm in diameter QDs type, on which a high performance transport coating (11) HTL type 200 - 5000 nm thick, made of durable electrically conductive polymer, preferably of the "PEDOT" type, on which the negative electrode (8) is placed together with the conductive layer (4), which are connected to the second glass plate (2), whose side walls are laminated circumferentially by means of a laminating film (12), preferably of "EVA" with the side walls of both conductive layers (3 and 4), the HTL transport layer (11), the QDs quantum dot layer (10) and the TiO2 semiconductor layer (9), and with the side walls of the first board (1), forming a monolithic thin-layer radiation converter electromagnetic.