A Nontemplated Route to Macrocyclic Dibridgehead Diphosphorus Compounds: Crystallographic Characterization of a "Crossed-Chain" Variant of in/out Stereoisomers

Abstract

Reactions of (O=)PH(OCH₂ CH₃ )₂ and BrMg(CH₂ )_m CH=CH₂ (4.9-3.2 equiv; m=4 (a), 5 (b), 6 (c)) give the dialkylphosphine oxides (O=)PH[(CH₂ )_m CH=CH₂ ]₂ (2 a-c; 77-81 % after workup), which are treated with NaH and then α,ω-dibromides Br(CH₂ )_n Br (0.49-0.32 equiv; n=8 (a'), 10 (b'), 12 (c'), 14 (d')) to yield the bis(trialkylphosphine oxides) [H₂ C=CH(CH₂ )_m ]₂ P(=O)(CH₂ )_n (O=)P[(CH₂ )_m CH=CH₂ ]₂ (3 ab', 3 bc', 3 cd', 3 ca'; 79-84 %). Reactions of 3 bc' and 3 ca' with Grubbs' first-generation catalyst and then H₂ /PtO₂ afford the dibridgehead diphosphine dioxides (4 bc', 4 ca'; 14-19 %, n'=2m+2); ³¹ P NMR spectra show two stereoisomeric species (ca. 70:30). Crystal structures of two isomers of the latter are obtained, out,out-4 ca' and a conformer of in,out-4 ca' that features crossed chains, such that the (O=)P vectors appear out,out. Whereas 4 bc' resists crystallization, a byproduct derived from an alternative metathesis mode, (CH₂ )₁₂ P(=O)(CH₂ )₁₂ (O=)P(CH₂ )₁₂ , as well as 3 ab' and 3 bc', are structurally characterized. The efficiencies of other routes to dibridgehead diphosphorus compounds are compared.

Keywords: hydrogenation; isomerization; metathesis; phosphanes; structure elucidation.