| Title |
Nanostructured manganite films grown by pulsed injection MOCVD: tuning low- and high-field magnetoresistive properties for sensors applications / |
| Authors |
Stankevič, Voitech ; Žurauskienė, Nerija ; Keršulis, Skirmantas ; Plaušinaitienė, Valentina ; Lukose, Rasuole ; Klimantavičius, Jonas ; Tolvaišienė, Sonata ; Skapas, Martynas ; Selskis, Algirdas ; Balevičius, Saulius |
| DOI |
10.3390/s22020605 |
| Full Text |
|
| Is Part of |
Sensors.. Basel : MDPI AG. 2022, vol. 22, iss. 2, art. no. 605, p. 1-16.. eISSN 1424-8220 |
| Keywords [eng] |
MOCVD technology ; nanostructured thin films ; colossal magnetoresistance ; low field magnetoresistance ; manganite films ; magnetic field sensor |
| Abstract [eng] |
The results of colossal magnetoresistance (CMR) properties of La0.83Sr0.17Mn1.21O3 (LSMO) films grown by pulsed injection MOCVD technique onto various substrates are presented. The films with thicknesses of 360 nm and 60 nm grown on AT-cut single crystal quartz, polycrystalline Al2O3, and amorphous Si/SiO2 substrates were nanostructured with column-shaped crystallites spread perpendicular to the film plane. It was found that morphology, microstructure, and magnetoresistive properties of the films strongly depend on the substrate used. The low-field MR at low temperatures (25 K) showed twice higher values (−31% at 0.7 T) for LSMO/quartz in comparison to films grown on the other substrates (−15%). This value is high in comparison to results published in literature for manganite films prepared without additional insulating oxides. The high-field MR measured up to 20 T at 80 K was also the highest for LSMO/quartz films (−56%) and demonstrated the highest sensitivity S = 0.28 V/T at B = 0.25 T (voltage supply 2.5 V), which is promising for magnetic sensor applications. It was demonstrated that Mn excess Mn/(La + Sr) = 1.21 increases the metal-insulator transition temperature of the films up to 285 K, allowing the increase in the operation temperature of magnetic sensors up to 363 K. These results allow us to fabricate CMR sensors with predetermined parameters in a wide range of magnetic fields and temperatures. |
| Published |
Basel : MDPI AG |
| Type |
Journal article |
| Language |
English |
| Publication date |
2022 |
| CC license |
|
