Petra Ecorchard

Elusive ethynyl azides: trapping by 1,3-dipolar cycloaddition and decomposition to cyanocarbenes

Although they decompose rapidly to produce cyanocarbenes, ethynyl azides were generated from (chloroethynyl)arenes and trapped for the first time by 1,3-dipolar cycloaddition at cyclooctyne.

Iron–Bismuth Halido Compounds: Molecules, Clusters, and Polymers

The pentamethylcyclopentadienyl substituted iron-bismuth halides [Bi{FeCp*(CO)2}X2] [X = Cl (1), Br (2), I (3); Cp* = η(5)-C5Me5] were synthesized starting from [FeCp*(CO)2]2 and BiX3 (X = Cl, Br), followed by halogen exchange reaction with KI in case of 3. From a reaction mixture of [FeCp*(CO)2]2 with BiCl3 in CH2Cl2 to which CH3CN had been added, a novel coordination polymer of the formula [FeCp*(CO)2(CH3CN)]2n[Bi4Cl14]n (4) was isolated. The change of the molar ratio from 1:1 to 1:2 in the reaction of [FeCp*(CO)2]2 with BiBr3 afforded the novel ionic complex [{FeCp*(CO)2Br]2[Bi6Br22{FeCp*(CO)2}]·CH2Cl2 (5·CH2Cl2). It is demonstrated that treatment of [FeCp*(CO)2X] (X = Cl, Br) with BiCl3 and BiBr3, respectively, is a more convenient route to synthesize the new halido bismuthates 4 and 5.

Arylphosphonic acid esters as bridging ligands in coordination polymers of bismuth

Abstract The reaction of the arylphosphonic acid esters 4,4′-[(i-PrO)2P(O)]C6H4C6H4[P(O)(Oi-Pr)2] (L1), 1,3,5-[(i-PrO)2P(O)]3C6H3 (L2), and 5-t-Bu-1,3-[(i-PrO)2P(O)]2C6H3 (L3), respectively, with bismuth halides BiX3 (X=Cl, Br, I) gave seven novel bismuth coordination polymers that have been characterized by single-crystal X-ray diffraction analysis. The solid-state structures of [(BiCl3)(L1)] (1), [(BiBr3)(L1)]·0.25CH3CN (2·0.25CH3CN), [(BiI3)2(L1)]·0.25CH3CN (3·0.25CH3CN), [(BiCl3)(L2)] (4), [(BiCl3)2(L2)] (5), [(BiBr3)2 (L2)]·CH3CN (6·CH3CN), and [(BiCl3)(L3)] (7) are presented. Thermal analysis of [(BiCl3)2(L2)] (5) is indicative of a conversion of the complexes into a bismuth phosphonate by complete i-PrX elimination, whereas for [(BiBr3)2(L2)] (6), elimination of i-PrBr and BiBr3 is assumed. Compounds 1–3 form one-dimensional coordination polymers, whereas two-dimensional networks are observed for compounds 4–7.