[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:198 Invited speech

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

Duration:20min

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

No files

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
 
Keywords
Speaker
Mikhail Lukashevich
Belarusian State University, Belarus

Comment submit
Verification code Change another
All comments
Mr. Duan Jindi,       Tel. 13971036507  

Mr. Jiang Chao,        Tel. 18971299299

E-mail:icse2024@126.com
Dr. Liu Mingming,  Tel. 19862516876

E-mail:mmliu@sdut.edu.cn

Dr. Zhu Jian,         Tel. 15810878528 E-mail: zhujian@sdut.edu.cn
Dr. Zhang Xiuli,     Tel. 15064351998

E-mail: zhangxiulli@163.com

Prof. Guo Qianjian,   Tel. 13969397001

Registration Submission