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Lane, P.A., Crosbie, M.J., Wright, P.J., Donohue, P.P., Hirst, P.J., Reeves, C.L., Anthony, C.J., Jones, A.C., Todd, M.A. and Williams, D.J. (2003) The Metal-Organic Chemical Vapor Deposition of Lanthanum Nickelate Electrodes for Use in Ferroelectric Devices. Chemical Vapor Deposition, 9, 87-92.
http://dx.doi.org/10.1002/cvde.200390007
has been cited by the following article:
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TITLE:
Kinetics and Vapor Pressure Studies of bis(N-alkyl-2-hydroxonapthaldimine)nickel (II) (N-R = methyl to pentyl) Complexes
AUTHORS:
Maria Francis George Johnson, Thevabakthi Siluvai Muthu Arul Jeevan, Sebastian Arockiasamy, Karachalacheruvu Seetharamaiah Nagaraja
KEYWORDS:
Volatile Nickel Complexes, Thermal Properties, Vapor Pressure, Transpiration Technique, Enthalpy and Entropy of Vaporization, Vaporization Kinetics
JOURNAL NAME:
American Journal of Analytical Chemistry,
Vol.6 No.2,
January
20,
2015
ABSTRACT: The complexes of bis[N-alkyl-2-hydroxonapthaldimine]nickel(II) (N-alkyl = methyl, ethyl, propyl, butyl or pentyl) were synthesized and their volatilization in N2 atmosphere was demonstrated by the TG-based transpiration technique. The equilibrium vapor pressure of the complexes over a temperature span of 470 - 590 K was determined by adapting a horizontal dual arm single furnace thermoanalyser as a transpiration apparatus. It yielded as 153.1 (±1.9), 122.9 (±0.3), 147.6 (±10.7), 151.8 (±10.9) and 114.7 (±5.3) k·Jmol–1 respectively. The entropies of vaporization for these complexes as calculated from the intercept of the linear fit expressions were found to be 319.7 (±3.9), 229.9 (±5.8), 317.8 (±17.2), 319.7 (±19.1) and 254.6 (±9.6) Jmo–1·K–1 respectively. The non-isothermal vaporization activation energy was determined from Arrhenius and Coats-Redfern methods.