The heteropolyanions [Bi2W22O74(OH)(2)](12-) (1) and [X2W20M2O70(H2O)(6)]((
14-2n)-) (X = Sb3+, Bi3+; Mn+ = Fe3+, Co2+, Zn2+) (2-7) have been synthesiz
ed as alkali metal and ammonium salts, respectively, and characterized by e
lemental analysis, infrared spectroscopy, and X-ray crystallography. These
tungsto bismutates and antimonates reveal one common feature: the trivacant
beta-B-XW9O33 Keggin fragment as the structural building unit. Formally, t
he unit can be derived from the Keggin structure by removing one trimetalat
e fragment, W3O13, and a 60 degrees rotation of one of the remaining W3O13
subunits around the X-O-W3X bond vector (the subscript indicates the elemen
t(s) bonded). The unshared pair of electrons of the respective central, pyr
amidally coordinated heteroatom Sb-III or Bi-III prevents formation of the
complete spherical structure. In the presented heteropolyanions 1-7, two be
ta-B-XW9O33 units are connected by two WO2 groups. Further stabilization of
this hitherto unknown bis-decatungsto ion [X2W20O70](14-) is reached eithe
r by addition of two formal fac-WO3 anti-Lipscomb's rule units to give the
bis-undecatungsto bismutate [Bi2W22O74(OH)(2)](12-) (1) or by addition of t
wo Mn+(H2O)(3) groups (Mn+ = Fe3+, Co2+, Zn2+) forming the large, transitio
n-metal-substituted heteropolyanion clusters [X2W20M2O70(H2O)(6)]((14-2n)-)
(X = Sb3+, Bi3+; Mn+ = Fe3+, Co2+, Zn2+) (2-7).