CONTRIBUTIONS TO THE CHEMISTRY OF BORON .240. STUDIES ON BENZO-1,3,2-DIPHOSPHABOROLANES, BENZO-1,4,2,3-DIPHOSPHADIBORINANES AND BENZO-1,5,2,3,4-DIPHOSPHATRIBOREPANES
B. Kaufmann et al., CONTRIBUTIONS TO THE CHEMISTRY OF BORON .240. STUDIES ON BENZO-1,3,2-DIPHOSPHABOROLANES, BENZO-1,4,2,3-DIPHOSPHADIBORINANES AND BENZO-1,5,2,3,4-DIPHOSPHATRIBOREPANES, Chemische Berichte, 130(11), 1997, pp. 1677-1692
A series of benzo-1,3,2-diphosphaborolanes C6H4(PR)(2)BR' (R = H, iPr,
SiMe3; R' = R2N, R) has been prepared by several routes and character
ized by spectroscopic and - in part - by X-ray diffraction methods. Th
ey feature pyramidal P atoms with the substituents in antiperiplanar p
ositions. The P atoms act as coordination sites for the (CO)(5)Cr frag
ment. In contrast to the R2N-bearing benzo-1,3,2-diphosphaborolanes, t
he derivative C6H4(PH)(2)BCMe3 (4f) dimerizes by additional B-P bond f
ormation to produce a pentacyclic system (4f)(2). - The reaction of C6
H4(PHNa)(2) with B-2(NMe2)(2)Cl-2 in THF/hexane yields the acyclic pho
sphanylborane Me2NB(PH-C6H4PH2)(2) (15). However, if C6H4[P(iPr)Li](2)
is allowed to react with B-2(NMe2)(2)Cl-2, the benzo-1,4,2,3-diphosph
adiborinane 13 is obtained, together with its rearrangement product s(
dimethylamino)borylbenzo-1,3,2-diphosphaborolane 14 which dimerizes to
(14)(2). - In contrast, the almost planar ring of the 2,3-dimesitylbe
nzo-1,4,2,3-diphosphadiborinane (16) possesses P and B atoms with a pl
anar geometry. Short B-B and B-P bonds suggest that this new heterocyc
le can be regarded as a 6 pi electron system. Moreover, the benzo-1,5,
2,3,4-diphosphatriborepane 18 forms readily from C6H4(PHNa)(2) and Br(
Me2N)B-B(NMe2)-B(NMe2)Br to give a tub-shaped seven-membered C2B3P2 ri
ng system with the P atoms in a pyramidal and the B atoms in a planar
environment.