Zn2SiO4 crystal growth from molten solutions fluxed with Pb2ZnSi2O7 and fluorides
Abstract
Single crystals of Zn2SiO4 (willemite) in the form of hexagonal prisms several millimeters in size are grown between 1300 and 960°C by the cooling (1°C/h) of molten solutions composed of 5 Zn2SiO4 + 3 Pb2ZnSi2O7. Supplying most of the zinc as the fluoride improves crystal size and quality as do Mn and especially As. Chemical analyses and buoyancy density measurements indicate a nonstoichiometric Zn1.96Si1.04O4.04 crystal formula. Divalent Mn substitutes significantly, but not completely, for Zn to form solid solutions of the well-known and efficient green willemite phosphor. Arsenic, which increases the persistence of phosphorescence (afterglow), is incorporated into willemite crystals to a lesser degree than Mn, i.e., As has a low segregation coefficient. Little if any Pb is soluble in willemite grown this way. © 1982.