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SUBMERGED ARC SYNTHESIS OF MAGNETIC NANOPARTICLES N. Parkansky a, G. Leitus b, B. Alterkop a, R.L.Boxma n a, Z. Barkay c, Yu. Rosenberg c. a Electrical.

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Presentation on theme: "SUBMERGED ARC SYNTHESIS OF MAGNETIC NANOPARTICLES N. Parkansky a, G. Leitus b, B. Alterkop a, R.L.Boxma n a, Z. Barkay c, Yu. Rosenberg c. a Electrical."— Presentation transcript:

1 SUBMERGED ARC SYNTHESIS OF MAGNETIC NANOPARTICLES N. Parkansky a, G. Leitus b, B. Alterkop a, R.L.Boxma n a, Z. Barkay c, Yu. Rosenberg c. a Electrical Discharge and Plasma Laboratory, Tel Aviv University, POB 39040, Tel Aviv 69978, Israel b Department of Chemical Research Support, Weizmann Institute of Science, Rehovot 76100, Israel c Wolfson Applied Materials Research Center, Tel Aviv University, POB 39040, Tel Aviv 69978, Israel Experimental Method: Conclusions C and Ni-C powders were produced by a pulsed arc, ignited between C and Ni electrode pairs, respectively, with a gap of 0.35 mm between them, submerged in 200 ml of analytical (99.8%) ethanol. 0.05J pulses were generated by a Blumlein transmission line circuit. After each pulse discharge, the transmission lines were charged again, and discharges with ~1 µs duration occurred repetitively during free-running operation at a pulse repetition rate of ~1 kHz. The breakdown voltage in ethanol was 12 kV. The powder was examined by HRSEM, TEM, EDX and XRD. Magnetic properties were studied in a SQUID magnetometer. Electrical circuit of Blumlein pulse generator Temperature dependence of magnetic susceptibility taken at 10 Oe during ZFC (zero field cooled) and FC (field cooled) measurements. Superparamagnetic transition observed at T B = 8-9 K. Transition from single-domain ferromagnetic behavior - blocked state below T B and superparamagnetic state above T B. HRSEM micrograph of same “big” nano-particles (marked by arrows). 1. Nano-powder consisting of C particles and Ni-C alloy particles coated by C, was produced by a pulsed arc between Ni electrodes submerged in ethanol.. 2. C concentration in the Ni alloy was ~3  maximum solid equilibrium solubility. 3. Ni-C powder was superparamagnetic in a wide temperature interval T>T B = 8 K. The material had a very narrow hysteresis loop Hc<8 Oe (i.e. it is a soft magnet) in the superparamagnetic state. 4. Carbon powder comprised of nano- and micro-particles was produced by a pulsed arc between C electrodes submerged in ethanol. 5. Micro-particles were not magnetic, while nano-particles exhibited magnetic behavior. 6. Nano-particles super-paramagnetic, critical temperature > 300 K. Magnetization curves at low temperatures. Initial susceptibility  ini calculated at H < 20 Oe.  ini maximum is observed at blocking temperature T B =8 K. Discharge 95% of produced particles had a diameter<30 nm. HRTEM micrographs of Ni-C nano-particles XRD patterns of Ni-C powder. Pulse energies: 0.05 J (bold line), 0.025 J (broken line). Structure of Ni-C powder: FCC Ni – C solid solution, lattice parameter up to 3.587 A. C concentration ( 7.9%) 3  maximum equilibrium solid solubility of C in Ni. The approximate superimposition of the curves at T > 5 K indicates superparamagnetism Dependence of DC magnetic moment of the raw C powder on magnetic field at T = 20 K and 300 K. The magnetic field was decreased from 10000 Oe to -10000 Oe and then increased back. Inserts: A) Dependences at H > 2000 Oe; B) at low field. ZFC and FC temperature dependences of DC magnetic susceptibility measured at H = 100 Oe of C nanoparticles. ESEM SE images of magnetically separated rod (a) and spherical (b) carbon nano-particles captured on glass slides by bio-ferrography. ab


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