2015
DOI: 10.1002/hc.21304
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Fragmentation-Related Phosphonylation of Nucleophiles Utilizing P-Alkyl 2,3-oxaphosphabicyclo[2.2.2]octene 3-oxide Precursors

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Cited by 8 publications
(6 citation statements)
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“…have generated considerable scientific interest due to their potential as phosphorylation/phosphonylation reagents as well as their participation as intermediates/final products of combustion reactions involving warfare agents and flame retardants. , Dioxyphosphorane ( 1 , Figure ) and cis / trans -alkoxyphosphanone ( 2 , 3 ) are the structural isomers that these molecules are capable of adopting. The former, formally a P­(V) species, is thermodynamically more favorable for all species regardless of the nature of the R substituent , with the exception of the parent compound (i.e., R = H). In fact, parent dioxophosphorane 1a has been predicted to be more than 40 kJ/mol less stable than the cis-isomer of hydroxyphosphanone ( 2a ), and it was then not surprising that this least thermodynamically stable isomer (i.e., HPO 2 ) was only recently detected via infrared spectroscopy among several products formed during 193/266 nm laser photolysis of 2a in the Ar matrix at 2.8 K …”
Section: Introductionmentioning
confidence: 99%
“…have generated considerable scientific interest due to their potential as phosphorylation/phosphonylation reagents as well as their participation as intermediates/final products of combustion reactions involving warfare agents and flame retardants. , Dioxyphosphorane ( 1 , Figure ) and cis / trans -alkoxyphosphanone ( 2 , 3 ) are the structural isomers that these molecules are capable of adopting. The former, formally a P­(V) species, is thermodynamically more favorable for all species regardless of the nature of the R substituent , with the exception of the parent compound (i.e., R = H). In fact, parent dioxophosphorane 1a has been predicted to be more than 40 kJ/mol less stable than the cis-isomer of hydroxyphosphanone ( 2a ), and it was then not surprising that this least thermodynamically stable isomer (i.e., HPO 2 ) was only recently detected via infrared spectroscopy among several products formed during 193/266 nm laser photolysis of 2a in the Ar matrix at 2.8 K …”
Section: Introductionmentioning
confidence: 99%
“…The Diels–Alder reactions of P­(IV) derivatives of phosphole have attracted the attention of experimental and computational chemists because such reactions form a 7-phosphanorbornene moiety that holds unique properties of its P-center. The significance of the 7-phosphanorbornene derivatives was explained by Quin, Mathey et al, in fragmentation-related phosphorylation reactions, , complexations, and in refunctionalization including deoxygenations. Westheimer first reported the preparation of P­(IV) derivatives of phosphole, which was further explored for the synthesis of the dimers of phosphole derivatives including oxides, sulfides, and quaternary salts. …”
Section: Introductionmentioning
confidence: 99%
“…The oxidation also gave the regiomeric oxidation products with poor regioselectivity, oxygen insertion in less steric C-P side as the major process (Scheme 76). [109][110][111] 3-Alkyl-2,3-oxaphosphabicyclo[2.2.2]octane 3-oxides can be applied as phosphonylating reagents as well because they generate alkylmetaphosphonates, which are phosphorus analogues of the acyl group, under heating. [109][110][111] Although the Baeyer-Villiger oxidation can convert 7-phosphanorbene 7-oxide derivatives to the corresponding 2,3oxaphosphabicyclo[2.2.2]octane 3-oxides, the oxidation generally gave the desired products in low yield with low regioselectivities for unsymmetric reactants, even needing long reaction time in some cases.…”
Section: Synthesis Via the Ring Expansionmentioning
confidence: 99%
“…The oxidation also gave the regiomeric oxidation products with poor regioselectivity, oxygen insertion in less steric C–P side as the major process (Scheme 76). 109–111 3-Alkyl-2,3-oxaphosphabicyclo[2.2.2]octane 3-oxides can be applied as phosphonylating reagents as well because they generate alkylmetaphosphonates, which are phosphorus analogues of the acyl group, under heating. 109–111…”
Section: Synthesis Via the Ring Expansionmentioning
confidence: 99%