Thermal quenching of photoluminescence of Eu3+ ions in an Eu(fod)3 complex

Abstract: Introduction.Currently transparent polymer materials are being increasingly widely used in optoelectronics. They are used as the basis for designing new types of integrated optics devices such as optical amplifiers, frequency selectors, three-dimensional memory devices, etc. Furthermore, study of the physical and chemical properties of polymers is of significant interest since those properties can change considerably when specific molecular compounds are added.Adding organometallic compounds to the internal fr… Show more

“…As we see from Fig. 2a, in the initial Eu(fod) 3 there are two types of centers: Eu(fod) 3 (center I) and, as we hypothesize, its hydrolyzed form (center II (OH) ), which was formed during synthesis of the polycrystalline powder due to the presence of traces of water [9]:…”

“…This work is a continuation of the investigations we started on the spectroscopy of organometallic molecules, introduced by impregnation of some polymers and nanoporous glasses using conventional solutions and solutions of supercritical CO 2 [1][2][3][4]9]. Study of these questions is timely and aimed toward development of new photosensitive and thermosensitive materials, for example for designing a medical luminescent thermosensor to be used in laser operations on biological tissues [9].…”

“…Study of these questions is timely and aimed toward development of new photosensitive and thermosensitive materials, for example for designing a medical luminescent thermosensor to be used in laser operations on biological tissues [9].…”

“…The optical absorption and photoluminescence spectra were obtained on an automatic spectral system described in [4,9]. The EPR spectra of the Cu 2+ ions in the samples were measured on an RE ′ -1306 spectrometer in the 3 cm wavelength range (X band) at a temperature of 77 K. The spectra of the alcoholic solutions of the Cu(hfac) 2 molecules were measured after they were frozen down to liquid nitrogen temperature.…”

Spectra of copper and europium β-diketonates in alcoholic solutions and transparent dielectrics

“…As we see from Fig. 2a, in the initial Eu(fod) 3 there are two types of centers: Eu(fod) 3 (center I) and, as we hypothesize, its hydrolyzed form (center II (OH) ), which was formed during synthesis of the polycrystalline powder due to the presence of traces of water [9]:…”

“…This work is a continuation of the investigations we started on the spectroscopy of organometallic molecules, introduced by impregnation of some polymers and nanoporous glasses using conventional solutions and solutions of supercritical CO 2 [1][2][3][4]9]. Study of these questions is timely and aimed toward development of new photosensitive and thermosensitive materials, for example for designing a medical luminescent thermosensor to be used in laser operations on biological tissues [9].…”

“…Study of these questions is timely and aimed toward development of new photosensitive and thermosensitive materials, for example for designing a medical luminescent thermosensor to be used in laser operations on biological tissues [9].…”

“…The optical absorption and photoluminescence spectra were obtained on an automatic spectral system described in [4,9]. The EPR spectra of the Cu 2+ ions in the samples were measured on an RE ′ -1306 spectrometer in the 3 cm wavelength range (X band) at a temperature of 77 K. The spectra of the alcoholic solutions of the Cu(hfac) 2 molecules were measured after they were frozen down to liquid nitrogen temperature.…”

Spectra of copper and europium β-diketonates in alcoholic solutions and transparent dielectrics

“…Using europium organometallic compounds makes it possible to excite red photoluminescence of the Eu 3+ rather easily through the ligand component of the molecule [7,10], where the intensity of such photoluminescence varies considerably within the temperature range 20 o C-100 o C [4]. This factor is important in choosing a thermosensitive material for a temperature sensor using the effect of the fall-off in the intensity of the photoluminescence excited from a simple light-emitting diode source in the near UV range [4]. However, the application of such materials for a wide variety of practical problems, including the case mentioned above, may run up against some difficulties if we do not take into account the effect of the external medium, leading to a change in the spectral characteristics of polymers doped with organometallic compounds.…”

Effect of the external medium on the spectral characteristics of polypropylene films doped with Eu(fod)3 molecules

Photosensitivity and thermosensitivity of polymers doped with Eu(fod)3 molecules