Thermoanalytical study of linkage isomerism in coordination compounds: Part I. Reinvestigation of thermodynamic and thermokinetic of solid state interconversion of nitrito (ONO) and nitro (NO 2) isomers of pentaaminecobalt(III) chloride by means of DSC

Abstract

Solid state thermal isomerization of [Co(NH 3) 5(ONO)]Cl 2 (nitrito isomer) to [Co(NH 3) 5(NO 2)]Cl 2 (nitro isomer) and reverse reaction were investigated by non-isothermal differential scanning calorimetry (DSC) and found to be essentially an equilibrium process. The interconversions are accelerated at above 65 °C and reach to equilibrium state at about 155 °C. After establishment of the equilibrium the relative amounts of two isomers at any temperature are governed by Gibbs free energy relationship. The experimental enthalpy changes of isomerization of pure nitrito and nitro solid samples to the equilibrium state are −4.67 (±0.19) and 0.99 (±0.05) kJ mol −1, respectively. From these values, total enthalpy change was calculated as: Δ H°=−5.66(±0.20) kJ mol −1. Using Gibbs free energy relationship, equilibrium constant, total free energy and entropy changes were estimated at 60 °C as: K=7.72 (±0.8) , ΔG°=−5.54 (±0.20) kJ mol −1 and ΔS°=−0.36 (±0.80) J K −1 mol −1. An initial rate method has been developed to determine the kinetic parameters of these reactions from non-isothermal DSC data. Both nitro to nitrito and reverse reactions obey first order kinetic law in solid state. Estimated activation parameters of forward and reverse paths at 60 °C are ΔH ‡ ONO =103 (±3) kJ mol −1 , ΔS ‡ ONO =−6 (±1) J K − 1 mol −1 , ΔH ‡ NO 2 =108(±5) kJ mol −1 and ΔS ‡ NO 2 =−3(±1) J K − 1 mol −1 , respectively. The negative activation entropy of both directions support the intramolecular mechanism of isomerization, including formation of a seven coordinate transition state, which formerly suggested based on spectral and X-ray methods.