Flux Growth of [NaK6F][(UO2)3(Si2O7)2] and [KK6Cl][(UO2)3(Si2O7)2]: The Effect of Surface Area to Volume Ratios on Reaction Products

2016-02-02T00:00:00Z (GMT) by Gregory Morrison Hans-Conrad zur Loye
Single crystals of two new salt-inclusion uranium­(VI) silicates, [NaK6F]­[(UO2)3(Si2O7)2] and [KK6Cl]­[(UO2)3(Si2O7)2], were grown from mixed alkali halide salt fluxes. Both compounds crystallize in the [NaRb6F]­[(UO2)3(Si2O7)2] structure type in the orthorhombic space group Pnnm with lattice parameters a = 11.0819(5) Å, b = 13.1149(6) Å, and c = 7.8418(4) Å ([NaK6F]) and a = 11.0830(7) Å, b = 13.5850(4) Å, and c = 7.8693(5) Å ([KK6Cl]). The surface area to volume (sa/vol) ratio of the reaction, controlled by the reaction vessel dimensions, has a strong influence on the reaction products with small sa/vol ratios favoring the growth of the salt-inclusion phases. Both compounds exhibit the typical luminescence of the uranyl group with the luminescence of [KK6Cl]­[(UO2)3(Si2O7)2] being less intense than [NaK6F]­[(UO2)3(Si2O7)2], likely due to quenching by the Cl ions.