On crystal growth of ammonium and potassium dichromate. A study of the shubnikov effect

Abstract Growth and equilibrium forms of ammonium (A2/a) and potassium dichromate (P 1 ) have been calculated by means of the Fourier transform method of crystal morphology. Twin laws of potassium dichromate and heteroepitaxial intergrowth of both substances can be explained by partitions of space. According to Shubnikov the (001) planes of potassium dichromate crystals grown in aqueous solutions are always smooth, the parallel opposite planes, however, roughened. Wagner observed that this effect only occurs at temperatures shortly above or below 25 °C. The present investigation has shown that roughening of (00 1 ) appears at 25 °C after addition of potassium chromate to the potassium dichromate solutions. This means that the one‐sided intergrowth can be explained by a stereospecific adsorption of polychromates. Solution additions like potassium permanganate and Chromotrope 2B generate roughenings on both {001} faces. X‐Ray diffraction investigations can be interpreted in such a way that the intergrown plates are mirror symmetric oriented to two planes being normal to the a ‐ and b ‐axes. This is in accordance with repeated formation of intergrown plates.