Tuning the growth morphology of gypsum crystals by polymers

True control over the morphology of gypsum crystals formed via homogeneous precipitation from solution has rarely been reported in the literature. In this work, we have tested a large number of dissolved additives (polymers as well as small molecules) with respect to their ability to alter the typical microscopic appearance of precipitated gypsum powders, which is usually characterized by a mixture of single-crystalline needles and twinned plates. Among the many additives studied, a copolymer of vinylpyrrolidone and acrylic acid (PVP-co- PAA) was identified as powerful growth modifier for gypsum already at low concentrations. In both slow titration and rapid mixing experiments, unconventional blocky crystals with tilted stacking edges as well as pseudo-hexagonal plates could be synthesized reproducibly with the help of the copolymer. Systematic characteriza-tion revealed the dynamic mode of action of the newly identified growth modifier, which seems to stabilize a highly reactive face of gypsum and promote the formation of macrosteps. The degree of morphological control achieved in this way is unprecedented in the case of calcium sulfate and may devise entirely new concepts for additive design in the areas of plasters and cementitious materials, gypsum wallboard production and/or scale prevention.

Automated summary

In this study, a copolymer of vinylpyrrolidone and acrylic acid (PVP-co-PAA) was found to be a powerful growth modifier for controlling the morphology of gypsum crystals. The newly identified growth modifier could stabilize a highly reactive face of gypsum and promote the formation of unconventional crystal structures. This finding has important implications for additive design in the fields of plasters and cementitious materials, gypsum wallboard production, and scale prevention.