[Invited speech]Formation and characterization of structural, electrical, magnetic and galvanomagnetic properties of nanostructured metal-polymer composites layers obtained by implantation of 3d-transition metal ions into polymer films

Formation and characterization of structural, electrical, magnetic and galvanomagnetic properties of nanostructured metal-polymer composites layers obtained by implantation of 3d-transition metal ions into polymer films
ID:117 View Protection:ATTENDEE Updated Time:2024-10-14 11:05:20 Hits:202 Invited speech

Start Time:2024-10-19 10:05 (Asia/Shanghai)

Duration:20min

Session:[S2] Thin Film Technologies and Applications » [S2A] Session 2A

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Abstract
The results of an experimental study of the structural, electrical, magnetic and galvanomagnetic properties of nanostructured layers with a thickness of about 100nm, prepared on the surface of thin (40 µm) films of polyimide (PI) and polyethylene terephthalate (PET) by implantation of 3d-transition metal ions are presented. The layers were obtained by implantation of ions: Ag+, Cu+, Fe+, Co+ with an energy of 40 keV in the dose range of 1,25 x1016 -1,5x1017 cm-2 at an ion current density of j=4-12 µA/cm2. The patterns of changes in the microhardness and roughness of the modified layer depending on the dose have been established. It is shown, that during implantation of non-magnetic metal ions, the insulator-to-metal transition is not observed. Implantation of magnetic ions leads to a smooth insulator-to-metal transition through the processes of weak localization in the PI(Co) composites at a critical dose of 1,25х1017 cm-2 and j=8 µA/cm2. A sharp insulator-to-metal transition is observed in PET(Fe) composites at a dose of 1х1017 cm-2 and j=4 cm-2. At room temperature cobalt-based composites are in a superparamagnetic state, while iron-based composites exhibit superparamagnetic and ferromagnetic states depending on the dose. Superparamagenic-ferromagnetic phase transition is observed at a dose of 7,5х1016 cm-2. In magnetically ordered layers the magnetoresistive effect is negative. It has sharp and narrow peaks in the range of magnetic fields of 0.1-0.2 T due to spin-dependent scattering of the electrons by domain walls. In layers without magnetic ordering, the magnetoresistance is immeasurable. The correlation of electrical, magnetic and galvanomagnetic characteristics is discussed.
Keywords: ion, implantation, metal-polymer composit, conductivity, magnetization, magnetic state
 
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Speaker
Mikhail Lukashevich
Belarusian State University, Belarus

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