Study of growth kinetics of ammonium oxalate monohydrate crystals from aqueous solutions

Experimental results of the dependence of linear growth rates of ammonium oxalate monohydrate [(NH 4 ) 2 C 2 O 4 · H 2 O; AO] single crystals on solution supersaturation are presented. The AO crystals were grown by constant‐temperature, constant‐supersaturation method at 30 and 40 °C in the supersaturation range of 1–9%. It was observed that the supersaturation dependence of growth rates follows the parabolic growth law. Analysis of the supersaturation dependence of linear growth rates of AO crystals showed (1) that growth models involving surface diffusion and direct incorporation of growth units give kinetic parameters similar to those reported for other compounds grown from solutions, and (2) that the the BCF model of cooperating screw dislocations is also applicable. An inverse relationship between the estimated values of the length, L , of the line containing the dislocations and growth rate, R , and a direct relationship between L and interplanar distance, d hkl , of the face { hkl } were found. Both these relationships are associated with the process of generation of screw dislocations in the growing layer.