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 Contemporary Materials 2016 - Савремени Материјали - confOrganiser.com

Contemporary Materials 2016 - Савремени Материјали

September 4 - 5, 2016.

Fullerene thin films characterization by spin magnetometer

Author(s):
1. Đuro Koruga, Mašinski fakultet Univerziteta u Beogradu, Serbia
2. Ivana Mileusnić, Serbia
3. Aleksandra Debeljković, Inovacioni centar Mašinskog fakulteta u Beogradu, Serbia
4. Ivan Djuricic, Mašinski fakultet Univerziteta u Beogradu, Serbia


Abstract:
Is carbon a magnetic material? According to textbook data the answer to that question is a definite no. This answer is based on well-known data that carbon atom is diamagnetic element with magnetic susceptibility =- 5 10-7 emu/g. Graphite susceptibility parallel to the planes is about equal to the free atom, while in the c-axis direction is = - 30 10-6 emu/g. Diamond, as bulk structure of carbon atoms, is also a diamagnetic material with = - 4.9 10-7 emu/g. Nevertheless carbon nanomaterials such as C60 has magnetic susceptibility of = -3.5 10-7 emu/g, C70 has = - 5.9 10-7 emu/g. while nanotube is in a range from = -1.6 10-5 to = -2.2 10-5 emu/g ,depends on magnetic field applying and temperature. All these data indicate that carbon materials are not magnetic. However, it is time to reconsider this dogma, because recently experiments have strongly indicated that, in certain forms, carbon can show not only paramagnetic, but also ferromagnetic characteristics.. To investigate these phenomena we use spin magnetometer to measure remanent magnetism of fullerene thin films, with accuracy of  3pT.

Key words:
Fullerene, Remanent magnetisation, spin magnetometer

Thematic field:
SYMPOSIUM A: Science of matter, condensed matter and physics of solid states

Date of abstract submission:
02.06.2013.

Number of visits:
180

Conference:
Contemporary Materials - 2013 - Savremeni materijali

Applied paper from author

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