Journal of the Korean Ceramic Society (한국세라믹학회지)

The Korean Ceramic Society (한국세라믹학회)
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Low-Temperature Preparation of Ultrafine Fe2O3 Powder from Organometallic Precursors

유기금속 전구체로부터 초미립 $Fe_2O_3$ 분말의 저온 합성

  • 김정수 (동양화학(주) 중앙연구소) ;
  • 김익범 (동양화학(주) 중앙연구소) ;
  • 강한철 (동양화학(주) 중앙연구소) ;
  • 홍양기 (동양화학(주) 중앙연구소)
  • Published : 1992.12.01
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Abstract

Ultrafine iron oxide powder, {{{{ gamma }}-Fe2O3 and $\alpha$-Fe2O3, were prepared by the thermal decomposition of organometallic compounds. The formation process of powder includes the thermal decomposition and oxidation of the organometallic precursors, Fe(N2H3COO)2(N2H4)2 (A) and N2H5Fe(N2H3COO)3.H2O (B). The organometallic precursors, A and B, were synthesized by the reaction of ferrous ion with hydrazinocarboxylic acid, and characterized by quantitative analysis and infrared spectroscopy. The mechanistic study for the thermal decomposition was performed by DAT-TG. The iron oxide powder was obtained by the heat treatment of the precursors at 20$0^{\circ}C$ and $600^{\circ}C$ for half an hour in air. The phases of the resulting product were proved {{{{ gamma }}-Fe2O3 and $\alpha$-Fe2O3 respectively. The particle shape was equiaxial and the particle size was less than 0.1 ${\mu}{\textrm}{m}$. Magnetic properties of the {{{{ gamma }}-Fe2O3 powder obtained from A and B was 234 Oe of coercivity, 64.26 emu/g of saturation magnetization, 23.59 emu/g of remanent magnetization and 24.1 Oe, 47.27 emu/g, 3.118 emu/g respectively. The value of $\alpha$-Fe2O3 powder was 1.494 Oe, 0.4862 emu/g, 0.1832 emu/g and 1,276 Oe, 0.4854 emu/g, 0.1856 emu/g respectively.

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References

  1. Ferrites Proceedings of the ICF3 The Present and Future of Magnetic Recording Media G.Bate;H. Watanabe(ed.);S. Iida(ed.);M. Sugimoto(ed.)
  2. Japn. J. Appl. Phys. v.22 no.2 Some Electrical Properties of γ-Fe₂O₃Ceramics Y. Nakatani;M. Matsuoka
  3. 산화철 자성재료의 기술동향과 전망 김명철
  4. J. Mater. Sci. v.23 Some Magnetic Properties of Synthesized from Ferrous Fumarate Half-Hydrate A. Venkataraman;A.J. Mukhedkar
  5. Chem. Mater. v.2 Synthesis and Characterization of Magnetic Iron-Modified Polyimide Films J.J. Bergmeister;J.D. Rancourt;L.T. Taylor
  6. Preparation and Characterization of Materials B.K. Das;J.M. Honig(ed.);C.N.R. Rao(ed.)
  7. Proc. of World Congress III of Chem. Eng. v.I Synthesis and Properties of Magnetite-dispersed Carbon by Pressure Pyrolysis of Organoiron Copolymer T. Yogo;S. Naka;S. Hirano
  8. J. Mater. Sci. v.25 The Thermal Decomposition Mechanism of Iron (III) Hydroxide Carbonate to α-Fe₂O₃ L. Markov;V. Blaskov;D. Klissurski;S. Nikolov
  9. Sol-Gel Science and Technology R.C. Mehrotra;M.A. Aegerter(ed.);M. JaferlcciJr(ed.);D.F. Souza(ed.);E.D. Zanotto(ed.)
  10. Mater. Chem. Phys. v.9 Mixed Metal Oxalate Hydrazinates as Compound Precursors to Spinel Ferrites D. Gajafathy;K.C. Patil
  11. Proc. Eur. Symp. Therm. Anal. 1st Thermal Properties of Hydrazinocarbonates J. Macek;A. Rahten;J. Slivnik
  12. Proc. Indian Acad Sci. Chem. Sci. v.95 no.4 Preparation, Characterization and Thermal Analysis of Metal Hydrazinocarboxylate Derivatives P. Ravindranathan;K.C. Patil
  13. J. de Physique v.47 no.SUP.02 J.M. Heintz;J.C. Bernier
  14. A Textbook of Quantitative Inorganic Analysis Including Elementary Instrumental Analysis Vogel, Arthur I.;J. Bassett(ed.);R.C. Denney(ed.);G.H. Jeffery(ed.);J. Mendham(ed.)
  15. Ber v.37 R. Stolle;K. Hoffmann
  16. Inorg. Chem. v.7 no.7 The Nitrogen-Nitrogen Stretching Band in Hydrazine Derivatives and Complexes A. Braibanti;F. Dallavalli;M.A. Pellinghelli;E.Leporati
  17. Nature v.211 Transition-metal Chelates of Hydrazinocarboxylic Acid A. Braibanti;G. Bighardi;A.M. Manotti Lanfredi;A. Tiripicchio
  18. Anal. Chem. Acta. v.28 Differential Thermal Analysis Study of Some Organic Acids W.W. Wendlandt;J.A. Hoiberg