Diphosphenes

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Template:Short description Script error: No such module "Unsubst". Script error: No such module "Distinguish". Diphosphene is a type of organophosphorus compound that has a phosphorus–phosphorus double bond, denoted by R-P=P-R'. These compounds are not common, but their properties have theoretical importance.

Normally, compounds with the empirical formula RP exist as rings.  However, like other multiple bonds between heavy main-group elements, P=P double bonds can be stabilized by large steric hindrance.[1] In general, diphosphenes react like alkenes.

History

In 1877, Köhler and Michaelis claimed what would have been the first isolated diphosphene (PhP=PPh),[2] The structure of Köhler and Michaelis' product was later revised.[3][4] and X-ray crystallographic analysis[5] proved that this "diphosphene" only had P-P single bonds and was in fact primarily a four-membered ring of the form (PPh)4. The isolation of phosphorus ylide and phosphaalkenes suggested that compounds with P=P bonds could be made.[6]

Yoshifuji et al's isolated a sterically-hindered diphosphene in 1981.[6] That compound's P-P bond distance is 2.034 Å, which is much shorter than the average bond length in (C6H5P)5 (2.217 Å) and (C6H5P)6 (2.237 Å) and indicates double-bond character.[7]

Synthesis

Following Maasaka Yoshifuji and his coworkers' 1981 preparation of bis(2,4,6-tri-tert-butylphenyl)diphosphene,[7] most disphosphene syntheses involve dehalogenation of bulkyl aryldichlorophosphine (ArPCl2). Mg is a typical dehalogenation reagent:[8]

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Such a synthesis works also for trisalkylsilylphosphines,[8] or N-heterocyclic boro-phosphines.[9]

File:B-P-1 (cropped).png
Synthesis of diboryldiphosphene (dipp = 2,6-diisopropylphenyl)

Ylide-stabilized diphosphenes

Examples of di-vinyl-substituted diphosphenes arise via a ring opening/dimerization process from kinetically unstable 2H-phosphirenes. However, the conjugation caused the compounds to exhibit reactivity closer to a phosphinidene.[10]

Structure

Cyclic voltammetry and UV/Vis spectra indicate that boryl-substituted diphosphenes have lower LUMO level and larger HOMO-LUMO gap than aryl-substituted diphosphenes.[9]

Geometry

According to X-ray crystallography, the following parameters describe bis(2,4,6-tri-tert-butylphenyl)diphosphene: P-P = 2.034 (2) Å; P-C = 1.826 (2) Å; P-P-C = 102.8 (1)o; C-P-P-C = 172.2 (1)o.[7] Compared with the length of a P-P single bond in H2PPH2 (2.238 Å),[11] the P-P bond distance is much shorter, which reveals double bond character. The trans orientation is the thermodynamically preferred isomer.[12]

Spectroscopic properties

Diphosphene compounds usually exhibit a symmetry-allowed (ππ*) (intense) and symmetry-forbidden (nπ*) (weak) electronic transitions.[13] In the Raman spectrum, the P=P vibration is enhanced by resonance with allowed the ππ* transition than with the forbidden nπ* transition due to different geometries of excited states and enhancement mechanism.[14] Also the observed strong Raman shifts for Template:Chemand Template:Chem2 suggest stronger dipnictenes featureTemplate:Which of diphosphene compared with P-P single bond.[15]Script error: No such module "Unsubst".

Reactivity

Lithium aluminium hydride reduces diphosphene to give diphosphanes.[16]

File:Color-filled map of electron density.png
Color-filled map of electron density of P2H2

Carbenes add across the double bond, to give diphosphiranes, which further rearrange to 1,3-diphospha-allenes in strong bases.[17]

File:Carbene-1 (cropped).png

Diphosphene is inert to oxygen but cycloadds to ozone to give highly unstable phosphorus-oxygen rings that tend to attack the phosphorus' organyl substituents.[18][19] The reaction with ozone is much more rapid and indicates a 2:1 (ozone:diphosphene) stoichiometry.[19]

File:Oxidation-2.png
Two oxidations of diphosphenes: a) Oxidation by triplet oxygen; b) Oxidation by ozone

When treated with strongly nucleophilic NHC's, the P=P bond cleaves giving phosphinidene compounds:[20]

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Coordination to transition metals

File:Complex-2 (cropped).png
Coordination modes typical for diphosphenes.

Diphosphines form a variety of coordination complexes. Diphosphenes can bind to transition metal either in a η1 or in a η2 mode.

Template:Chem2 is obtained by treating Na2[Fe(CO)4] with dichlorobis(trimethylsilyl)methylphosphine.[21] The related complex [ArP=PAr]Fe(CO)4 (Ar=2,4,6-tri-tert-butylphenyl) arises by treating diphosephene with Fe2(CO)9.[22]

η2-coordination is illustrated by Template:Chem2 (with M=Pt or Pd and L = (PPh3)2 or Template:Chem2).[23]

See also

References

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