PPh3 is widely used in
organic synthesis. The properties that guide its usage are its nucleophilicity and its reducing character. The nucleophilicity of PPh3 is indicated by its reactivity toward electrophilic alkenes, such as Michael-acceptors, and alkyl halides. It is also used in the synthesis of biaryl compounds, such as the
Suzuki reaction.
Quaternization PPh3 combines with
alkyl halides to give
phosphonium salts. This
quaternization reaction is particularly fast for benzylic and allylic halides: :PPh3 + CH3I → [CH3PPh3]+I− These salts, which can often be isolated as crystalline solids, react with strong bases to form
ylides, which are reagents in the
Wittig reactions. Aryl halides will quaternize PPh3 to give
tetraphenylphosphonium salts: :PPh3 + PhBr → [PPh4]Br The reaction however requires elevated temperatures and metal catalysts.
Mitsunobu reaction In the
Mitsunobu reaction, a mixture of triphenylphosphine and
diisopropyl azodicarboxylate ("DIAD", or its diethyl analogue,
DEAD) converts an alcohol and a carboxylic acid to an ester. DIAD is reduced as it serves as the hydrogen acceptor, and the PPh3 is oxidized to
OPPh3.
Appel reaction In the
Appel reaction, a mixture of PPh3 and CX4 (X = Cl, Br) is used to convert alcohols to alkyl halides.
Triphenylphosphine oxide (OPPh3) is a byproduct. :PPh3 + CBr4 + RCH2OH → OPPh3 + RCH2Br + HCBr3 This reaction commences with nucleophilic attack of PPh3 on CBr4, an extension of the quaternization reaction listed above.
Deoxygenation The easy oxygenation of PPh3 is exploited in its use to deoxygenate organic peroxides, which generally occurs with retention of configuration: :PPh3 + RO2H → OPPh3 + ROH (R = alkyl) It is also used for the decomposition of organic
ozonides to ketones and aldehydes, although
dimethyl sulfide is more popular for the reaction as the side product,
dimethyl sulfoxide is more readily separated from the reaction mixture than triphenylphosphine oxide. Aromatic
N-oxides are reduced to the corresponding amine in high yield at room temperature with irradiation: :
Sulfonation Sulfonation of PPh3 gives tris(3-sulfophenyl)phosphine, P(C6H4-3-SO3−)3 (
TPPTS), usually isolated as the trisodium salt. In contrast to PPh3, TPPTS is water-soluble, as are its metal derivatives. Rhodium complexes of TPPTS are used in certain industrial
hydroformylation reactions. is a water-soluble derivative of triphenylphosphine.
Reduction to diphenylphosphide Lithium in
THF as well as Na or K react with PPh3 to give
Ph2PM (M = Li, Na, K). These salts are versatile precursors to tertiary phosphines. For example,
1,2-dibromoethane and Ph2PM react to give
Ph2PCH2CH2PPh2. Weak acids such
ammonium chloride, convert Ph2PM (M = Li, Na, K) into
diphenylphosphine: :(C6H5)2PM + H2O → (C6H5)2PH + MOH ==Transition metal complexes==