POLYHEDRAL OXAPLATINABORANE CHEMISTRY - CHARACTERIZATION OF [9,9-(PME2PH)(2)-ARACHNO-9,6-PTOB8H10] AND ITS METALLABORANE NON-OXA COGNATE [6,6-(PME2PH)(2)-ARACHNO-6-PTB9H11-9-(PME2PH)]
Yh. Kim et al., POLYHEDRAL OXAPLATINABORANE CHEMISTRY - CHARACTERIZATION OF [9,9-(PME2PH)(2)-ARACHNO-9,6-PTOB8H10] AND ITS METALLABORANE NON-OXA COGNATE [6,6-(PME2PH)(2)-ARACHNO-6-PTB9H11-9-(PME2PH)], INORGANIC CHEMISTRY COMMUNICATIONS, 1(1), 1998, pp. 19-22
Reaction of [(PMe2Ph)(2)PtB8H12] with KH and [{(eta(5)-C5Me5)RhCl2}(2)
] followed by chromatographic separation in air unexpectedly gave the
ten-vertex oxametallaborane [9,9-(PMe2Ph)(2)-arachno-9,6-PtOB8H10] (1,
11%), which has a classical arachno ten-vertex geometry with the {O}
and {Pt(PMe2Ph)(2)}, vertices in the prow (6)- and (9)-positions; the
oxygen atom is therefore bound contiguously to boron atoms only. React
ion of [PtMe2(PMe2Ph)(2)] with [6,9-(PMe2Ph)(2)B10H12] generates its t
en-vertex metallaborane cognate [6,6-(PMe2Ph)(2)-arachno-6-PtB9H11-9-(
PMe2Ph)] (3, 10%), and completes a coherent B-->C-->N-->O cluster cons
tituent sequence. Compounds 1 and 3 are characterised by single-crysta
l X-ray diffraction analysis and NMR spectroscopy. (C) 1998 Elsevier S
cience S.A.