Organic solvent-free synthesis of calcium sulfate hemihydrate at room temperature

Calcium sulfate hemihydrate, also known as bassanite or Plaster of Paris, is one of the most extensively produced inorganic materials worldwide. Nowadays, bassanite is mainly obtained by thermal dehydration of calcium sulfate dihydrate (gypsum) - a process that consumes considerable amounts of energy and thus leaves a significant carbon footprint. Towards a more sustainable future, alternative technologies for bassanite production at low temperatures are therefore urgently required. While successful approaches involving organic solvents have been reported, we chose precipitation from aqueous solutions as a potentially even "greener" way of synthesis. In a previous work, we have shown that spontaneous formation of bassanite in water (in competition with thermodynamically favoured gypsum) can be achieved at 40 degrees C by the use of additives that maintain specific interactions with calcium sulfate precursors and modulate the local hydration household during crystallisation. The results of the present study demonstrate that bassanite can be obtained via simple precipitation from aqueous solutions at room temperature by the combination of additives acting through orthogonal mechanisms. The rational choice of orthogonally operating crystallisation additives allows the important hydraulic binder bassanite to be synthesised from purely aqueous media at ambient conditions.