Issue 12, 1998

Gas-phase formation of zinc/cadmium chalcogenide cluster complexes and their solid-state thermal decomposition to form II-VI nanoparticulate material

Abstract

Gas-phase reactions between R 2 Zn (R=Me and Et) and t BuSH produce cluster complexes of the type [RZnS t Bu] n . These clusters, along with [MeZnS t Bu(py)] 2 (py=pyridine), have been characterised by 13 C{ 1 H} solid-state NMR. On heating to 100°C in the solid-state, the complexes [MeZnS t Bu] 5 and [MeZnS t Bu(py)] 2 release dimethylzinc (Me 2 Zn) to form the zinc bis(thiolate) compound, [Zn(S t Bu) 2 ] n , with further heating (>200°C) leading to the formation of ZnS. The ethyl analogue, [EtZnS t Bu] 5 , does not lose Et 2 Zn on heating and thermogravimetric analysis (TGA) suggests a different decomposition pathway, one which mainly involves loss of the organic moieties without the concurrent loss of volatile Zn or S compounds, although ZnS is again the final thermal decomposition product. The decomposition of the involatile pentamers, [MeZnS t Bu] 5 and [EtZnS t Bu] 5 , and the dimer, [MeZnS t Bu(py)] 2 , proceeds at higher temperature (200-350°C) to give agglomerates of ME nanoparticulate material, with the individual particles having diameters of 2-20 nm in all cases. The mechanistic pathway by which these clusters decompose appears to be highly dependent upon the R group (Me or Et) present within the cluster. Preliminary results suggest that complexes of the type [RME t Bu] n are also produced from the gas-phase reactions of Me 2 Zn with t BuSeH and from Me 2 Cd with t BuSH.

Article information

Article type
Paper

J. Mater. Chem., 1998,8, 2769-2776

Gas-phase formation of zinc/cadmium chalcogenide cluster complexes and their solid-state thermal decomposition to form II-VI nanoparticulate material

N. L. Pickett, S. Lawson, W. Gregor Thomas, F. G. Riddell, D. F. Foster, D. J. Cole-Hamilton and J. R. Fryer, J. Mater. Chem., 1998, 8, 2769 DOI: 10.1039/A806421K

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