K.T. Jacob

Contact Information:
Department of Metallurgy
Indian Institute of Science
Bangalore 560 012. INDIA.
Office Phone : +91 80 2293 2494

Home Phone : +91 80 2525 2765

Fax : +91 80 2360 0472

Web URL:

Educational Qualifications:
Research Interests:
Total No. of Publications : 319

Recent publications
  1. Thermodynamics and phase equilibria involving the spinel solid solution FexMg1-xCr2O4,
    K.T. Jacob and G.N.K. Iyengar,
    Metal. Mater. Trans. B, vol. 30B, 1999, 865-871.

  2. Solid-state cells with buffer electrodes for accurate thermodynamic measurements: system Nd-Ir-O,
    K.T. Jacob, T.H. Okabe, T. Uda and Y. Waseda,
    Electrochim. Acta, vol. 45, 2000, 1963-1971.

  3. Solute-solute and solute-solvent interactions in transition metal alloys: Pt-Ti system,
    K.T. Jacob, S.M. Hoque and Y. Waseda,
    Mater. Sci. Tech, vol. 16, 2000, 364-371.

  4. An assessment of the reduction potential of hydrogen plasma,
    K.T. Jacob, A. Chandran and R.M. Mallya,
    Z. Metallkd., vol. 91, 2000, 401-405.

  5. Phase relations in the system Sr-Cr-O and thermodynamic properties of SrCrO4 and Sr3Cr2O8,
    K.T. Jacob and K.P. Abraham,
    J. Phase Equilibria, vol. 21, 2000, 46-53.

  6. Nanocrystalline MgAl2O4: measurement of thermodynamic properties using a solid state cell,
    K.T. Jacob, K.P. Jayadevan, R.M. Mallya and Y. Waseda,
    Adv. Mater., vol.12, 2000, 440-444.

  7. System Sr-Pb-O: phase equilibria and thermodynamics using solid state cells with buffer electrodes,
    K. T. Jacob and K.P. Jayadevan,
    Chem. Mater., vol. 12, 2000, 1779-1786.

  8. Tie lines and mixing properties of solid solutions in the system CaO-SrO-PbO-O at 1100 K,
    K. T. Jacob and K.P. Jayadevan,
    J. Phase Equilibria, vol. 21, 2000.

  9. Solid state cells with buffer electrodes for measurement of chemical potentials and Gibbs energies of formation: system Ca-Rh-O,
    K.T. Jacob and Y. Waseda,
    J. Solid State Chem., vol. 150, 2000, 213-220.

  10. Synergistic use of thermogravimetric and electrochemical techniques for thermodynamic study of TiOx (1.67 x 2.0) at 1573 K,
    K.T. Jacob, S.M. Hoque and Y. Waseda
    Mater. Trans. JIM (Japan Institute of Metals), vol. 41, 2000, 681-689.