Your search keyword '"CuFe2O4"' showing total 2 results

1. Structural and magnetic properties of Ho-doped CuFe2O4 nanoparticles prepared by a simple co-precipitation method

Author

Hoang Bao Khanh, Valentina O. Mittova, Anh Tien Nguyen, and Pham Thi Hong Duyen

Subjects

cufe2o4, ho-doping, co-precipitation method, magnetic properties, Chemistry, QD1-999

Abstract

Nanocrystalline copper (II) ferrite with a spinel structure doped with holmium was synthesized by co-precipitation using an aqueous solution of NaOH as a precipitant and subsequent annealing at 800°C for 60 min. The doping limit was determined by X-ray phase analysis. The similarity of the real and nominal compositions of the doped samples was established by energy-dispersive X-ray spectroscopy using a scanning electron microscope. The obtained particles had an approximately spherical shape, and their size was 40–70 nm (X-ray phase analysis, transmission electron microscopy). The introduction of Ho3+ cations to х = 0.15 into a CuFe2O4 spinel lattice led to a decrease in the average size of crystallites, an increase in the coercive force of nanopowders, and a decrease in excess magnetization and saturation magnetization. Synthesized CuFe2-xHoxO4 (х = 0, 0.1 and 0.15) nanopowders were magnetically hard materials with high coercive force.

Published

2022

2. Magnetic properties of CuFe2O4 - CuO binary nanoparticles

Subjects

CUO, бикомпонентные частицы, binary particles, наночастицы, CUFE2O4, nanoparticles, бинарные частицы, CUO@CUFE2O4, bicomponent particles

Abstract

Тема выпускной квалификационной работы: «Магнитные свойства Ð±Ð¸Ð½Ð°Ñ€Ð½Ñ‹Ñ Ð½Ð°Ð½Ð¾Ñ‡Ð°ÑÑ‚Ð¸Ñ† CuFe2O4 - CuO»Данная работа посвящена изучению Ð¼Ð°Ð³Ð½Ð¸Ñ‚Ð½Ñ‹Ñ ÑÐ²Ð¾Ð¹ÑÑ‚Ð² Ð±Ð¸Ð½Ð°Ñ€Ð½Ñ‹Ñ Ð½Ð°Ð½Ð¾Ñ‡Ð°ÑÑ‚Ð¸Ñ† CuFe2O4 – CuO. Тема работы является актуальной для Ñ‚ÐµÑ Ð½Ð¸ÐºÐ¸ и медицины в области адресной доставки Ð»ÐµÐºÐ°Ñ€ÑÑ‚Ð²ÐµÐ½Ð½Ñ‹Ñ Ð¿Ñ€ÐµÐ¿Ð°Ñ€Ð°Ñ‚Ð¾Ð² и разработки Ð½Ð¾Ð²Ñ‹Ñ Ð°Ð½Ñ‚Ð¸Ð¼Ð¸ÐºÑ€Ð¾Ð±Ð½Ñ‹Ñ Ð°Ð³ÐµÐ½Ñ‚Ð¾Ð². Образование Ð±Ð¸ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚Ð½Ñ‹Ñ Ñ‡Ð°ÑÑ‚Ð¸Ñ† наблюдается только для Ð½ÐµÐºÐ¾Ñ‚Ð¾Ñ€Ñ‹Ñ ÑÐ¾ÐµÐ´Ð¸Ð½ÐµÐ½Ð¸Ð¹. В бикомпонентной частице CuO-CuFe2O4 CuO обладает антибактериальными свойствами, а CuFe2O4 обладает сильными магнитными свойствами. В работе исследовались магнитные свойства порошкообразного CuO-CuFe2O4, который был получен методом дугового распыления в атмосфере гелия. Проводилось рентгеновское исследование, которое показало, что в образце содержание CuO и CuFe2O4 80% и 20%, соответственно. Проведены измерения намагниченности наночастиц в широком температурном интервале от 2 до 400 К. Высокие значения намагниченности подчеркивают эффективность использования Ñ‚Ð°ÐºÐ¸Ñ Ð½Ð°Ð½Ð¾Ñ‡Ð°ÑÑ‚Ð¸Ñ† в ÑÐ»ÑƒÑ‡Ð°ÑÑ , когда требуется магнитное управление или магнитная сепарация при ÐºÐ¾Ð¼Ð½Ð°Ñ‚Ð½Ñ‹Ñ Ð¸ более Ð²Ñ‹ÑÐ¾ÐºÐ¸Ñ Ñ‚ÐµÐ¼Ð¿ÐµÑ€Ð°Ñ‚ÑƒÑ€Ð°Ñ . В Ð¼Ð°Ð»Ñ‹Ñ Ð¿Ð¾Ð»ÑÑ Ð·Ð°Ð²Ð¸ÑÐ¸Ð¼Ð¾ÑÑ‚Ð¸ М(Н) имеют гистерезисный Ñ Ð°Ñ€Ð°ÐºÑ‚ÐµÑ€, ширина петли растет при понижении температуры., The topic of the final qualifying work: "Magnetic properties of CuFe2O4 - CuO binary nanoparticles"This work is devoted to the study of the magnetic properties of CuFe2O4 – CuO binary nanoparticles. The topic of the work is relevant for technology and medicine in the field of targeted drug delivery and the development of new antimicrobial agents. The formation of bicomponent particles is observed only for some compounds. In the bicomponent CuO-CuFe2O4 particle CuO has antibacterial properties, and CuFe2O4 has strong magnetic properties. The paper investigated the magnetic properties of powdered CuO-CuFe2O4, which was obtained by arc sputtering in a helium atmosphere. An X-ray examination was performed, which showed that the sample contained CuO and CuFe2O4 of 80% and 20%, respectively. The magnetization of nanoparticles was measured in a wide temperature range from 2 to 400 K. High magnetization values emphasize the efficiency of using such nanoparticles in cases where magnetic control or magnetic separation is required at room and higher temperatures. In small fields, the dependences of M(N) have a hysteresis character, the width of the loop increases with decreasing temperature.

Published

2022