Your search keyword '"Elena Bodyago"' showing total 2 results

1. Investigation of optical and photoelectric properties of poly (ohydroxyamide) sensitized by phthalocyanine as a perspective material for solar cells

Author

G. K. Lebedeva, Irina Sokolova, Elena Bodyago, Andrey V. Ziminov, Elvira Fazalova, Georgii Konoplev, Dmitrii Chigirev, Konstantin Kochunov, N. V. Mukhin, and Ludmila Rudaya

Subjects

Photocurrent, lcsh:GE1-350, Materials science, 010405 organic chemistry, business.industry, Photoconductivity, Photoelectric effect, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Wavelength, chemistry, Phthalocyanine, Optoelectronics, Irradiation, Thin film, Absorption (electromagnetic radiation), business, lcsh:Environmental sciences

Abstract

Optical and photoelectric properties of poly (ohydroxyamide) (PHA) sensitized with zinc phthalocyanines were investigated in the visible and near infrared spectral regions. The structures were deposited on glass substrates by centrifugation and subsequent drying of a PHA film without thermal annealing. Optical spectra revealed characteristic absorption peaks of phthalocyanine in the longer wavelength region at 620-640 nm and 680-700 nm; absorption of the PHA matrix monotonously increases to the shorter wavelengths starting from 700 nm. Measurements of the photocurrent under irradiation with a high-power LED at a wavelength 630 nm showed photoconductivity related to the organic dye; photoconductivity also was observed while irradiated at 540 nm, presumably due to the absorption of PHA matrix. For non-sensitized (dye-free) PHA films no detectable photocurrents were produced by 630 nm irradiation. It was shown that introducing of phthalocyanines significantly improves optical absorption and photoconductivity of PHA thin films at the wavelengths, where the maximum in the spectral distribution of solar radiation lies. It was concluded that phthalocyanine-sensitized PHA has the potential use as a photosensitive organic material for solar applications, for example in developing composite organicinorganic structures with ferroelectrics.

Published

2020

2. Multi wall carbon nanotubes as a top electrode for perovskite light-emitting electrochemical cells

Author

Ivan Mukhin, Elena Bodyago, Anvar A. Zakhidov, Maria Baeva, Dmitry Gets, and Sergei V. Makarov

Subjects

History, Materials science, Chemical engineering, law, Electrode, Carbon nanotube, Computer Science Applications, Education, Electrochemical cell, law.invention, Perovskite (structure)

Abstract

Carbon nanotubes are promising materials for use as flexible and transparent electrodes for a wide variety of optoelectronic devices like solar cells and light-emitting diodes. Moreover, the chemical inertness of carbon nanotubes matches with the operation of light-emitting electrochemical cells where ion migration is a main working principle especially based on halide perovskite, in which ions corrode metal electrodes. Here we demonstrate how the removal of synthesis residuals via synthesis enables the use of multiwall carbon nanotubes as a transparent electrode.

Published

2021