Effect of Heat Treatment on Properties of Sputtered Co100-xCux Film

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Presentation transcript:

Effect of Heat Treatment on Properties of Sputtered Co100-xCux Film G. Chaloeipote and W. Rattanasakulthong Department of Physics, Faculty of Science, Kasetsart University, Chatuchak, Bangkok, 10900, Thailand

Outline Introduction Experimental procedures Results and discussion Conclusions

Granular magnetic films Introduction 3 Granular magnetic films Magnetic (Ni, Co and Fe ) H=0 Non-magnetic (Cr, Ag and etc.) H≠0

Introduction 4 Applications Hard disk head Magnetic sensor Biosensors http://wordpress.mrreid.org/wp-content/uploads/2009/02/hard -disk-platter-and-head.jpg http://www.entrypass.net/w3v1/sites/default/files/product-accessories-magnetic-door-sensor-panel.png Biosensors Memory http://img.tarad.com/shop/a/allaboutmemory/img-lib/spd_2007072162032_b.jpg http://image.slidesharecdn.com/gmr-130616115630-phpapp02/95/gmr-20-638.jpg?cb=1371383851

Introduction 5 Effect of heat treatment on the morphological, structural and magnetic properties of CoCu film

Experimental procedure 6 RF-sputtering 250 W 1.0 x 10-5 mbar in Argon 90 min 400 °C for 30 min Ar atmosphere Ar The Co100-xCux thin films Glass substrate

Magnetic Measurement : VSM Chemical Composition : EDX Experimental procedure 7 Phase Structure : XRD Magnetic Measurement : VSM http://prv.nrct.go.th/shopping/home/show_product.php?research_id=439 http://www.sci.ku.ac.th:8000/th/sec/index.php/instruments/117-xrd.html Surface Morphology : AFM and SEM Chemical Composition : EDX http://roilbilad.files.wordpress.com/2010/10/sem.jpg

Results and Discussion

Fig. 1 Phase Structure of annealed Co-Cu thin films from XRD 8 annealed at 400°C 31° 37° 39° 45° 59° 36° CuO (020) Co3O4 (511) Cu (111) Co (220) Fig. 1 Phase Structure of annealed Co-Cu thin films from XRD

9 Scherrer’s Equation Films Average crystallite size (nm) Wave length of X-Ray Average crystallite size Angle of Bragg’s diffraction FWHM Films Average crystallite size (nm) CuCoO,Co3O4 (311) (222) Co3O4 (220) Co81Cu19 33.39 - 35.48 Co60Cu40 41.05 23.98 48.78 Co46Cu54 29.14 24.38 24.70 Co35Cu65 32.45 23.56 32.56 Co24Cu76 30.50 24.56 32.16 CuCoO,Co3O4(311) CuCoO,Co3O4(222) Co3O4(220) Co81Cu19 Co60Cu40 Co46Cu54 Co35Cu65 Co24Cu76

Fig. 2 Mapping result of annealed Co-Cu thin films from EDX 10 Co81Cu19 Co24Cu76 Co35Cu65 Co46Cu54 Co60Cu40 Co atom Cu atom Fig. 2 Mapping result of annealed Co-Cu thin films from EDX

Fig. 3 Surface morphology of annealed Co-Cu thin films from AFM 11 Co81Cu19 Co60Cu40 Co46Cu54 Co35Cu65 Co24Cu76 Fig. 3 Surface morphology of annealed Co-Cu thin films from AFM

Surface roughness of annealed Co-Cu thin films from AFM 12 Roughness (nm) 19 40 54 65 76 % Cu

13 Perpendicular Magnetic Field Fig. 4 Hysteresis loop of annealed Co-Cu thin films from VSM

14 Parallel Magnetic Field Fig. 5 Hysteresis loop of annealed Co-Cu thin films from VSM

Conclusions The annealed CoCu films showed Co(220), Cu(111) and oxide phases of CuCoO(222) Co3O4 in (222), (311) and CuO(-111). The surface roughness of annealed CoCu films is decreased with increasing Cu from 19 to 65 % but it is increased with increasing Cu 76%. The annealed CoCu films show ferromagnetic phase in perpendicular direction. Whereas films show paramagnetic phase in parallel direction. Heat treatment affects on properties by virtual of phase, distribution and surface.

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