ASSEMBLY AND LOCAL-STRUCTURE OF MOS2 COLLOIDAL PLATELETS ON QUARTZ AND MUSCOVITE MICA SURFACES

Aqueous suspensions of MoS2 colloidal platelets and their assembly aft er casting on quartz and cleaved muscovite mica (001) surfaces have be en investigated by optical spectroscopy and atomic force microscopy (A FM), Optical spectra are consistent with the presence of non-metallic distorted pseudo-octahedral (MoS2)(n)-based moieties. Features observe d between 800-1300 nm in single layers, at low platelet stacking order and when traces of Li+ remain (but not in either 2H-MoS2 or 1T-MoS2) are assigned to transitions from a split d(x2,yz,xz)O(h) MoS2 band to other d levels in a complex (rather than band) formulation. Difference s in optical spectra of platelets on (001) mica and on quartz, both as -cast and after annealing at >120 degrees C (when the films undergo a phase transition) are ascribed to differences in platelet assembly inv olving water bilayers (H2O vibrational combination bands are observed in mica but not in quartz). AFM micro-imaging shows MoS2 colloidal pla telets assemble randomly, including as almost vertical packets (as on gamma-alumina) on quartz over a wide concentration range. Instead, on mica (001) surfaces the cast assembly orders as a network of laterally developed tape-like structures (albeit with stacking faults). Single tapes are 200-300 nm wide, ca. 4 nm high and >3 mu m long and probably arise via side-on platelet fixture involving a complex platelet parki ng mechanism. It is suggested that horizontal dispersion and re-stacki ng of the platelets is directed by the charged mica surface. After ann ealing at 200 degrees C, Mo2(S) platelets on mica give single layers o f minimum thickness 6.2 +/- 0.2 Angstrom, having a(0) = 3.2 Angstrom ( by AFM) as expected for a 2H-MoS2 structure. [MoS2 films prepared by r eaction of MoO3 or MoCl5 + H2S via hard methods (CVD, sputtering, etc. ) give vertically-oriented MoS, platelets.] Colloidal MoS2 cast on GaA s(111) and Si(111) surfaces gives rise to a micro-crystalline environm ent via platelet scission and surface reactions. At the limit, anneali ng MoS, plates on both surfaces at 200 degrees C leads to complete dis appearance of MoS, islands due to reaction of S2- with the surface.