79905-93-4

Upstream product

• 4129-17-3 diphenylphosphoranyl azide 
• 141-43-5 ethanolamine 
• 1499-21-4 Diphenylphosphinic chloride 
• 1079-66-9 chloro-diphenylphosphine 
• 4559-70-0 Diphenylphosphine oxide 

Downstream Products

• 173042-73-4 2-(tert-butyldimethylsilanoxy)ethyl-diphenylphosphinamide 
• 1707-03-5 diphenyl-phosphinic acid 

Relevant academic research and scientific papers

Synthesis of nonsymmetrical dialkylamines on the basis of diphenylphosphinic amides

A facile method for the synthesis of nonsymmetrical dialkylamines (C nH2n+1)2NH (n = 1-12) using the Ph 2P(O) protecting group was developed. The method includes successive transformation of monoalkylamines to primary diphenylphosphinic N-alkylamides Ph2P(O)NHR' (R' = CnH2n+1, n = 1-12) by the Todd-Atherton reaction, phase transfer N-alkylation of these compounds, and hydrolysis of the secondary amides Ph2P(O)NR'R″ thus formed. When the (EtO)2P(O) and Bu2P(O) protecting groups are used, N-alkylation of primary amides is accompanied by the formation of Et-O and P-N bond cleavage products, respectively. A study of the stability of the N-alkylamides R2P(O)NHR' (R = Ph, p-MeC6H4, p-CIC6H4, Bu) under strong alkaline conditions used in the phase transfer N-alkylation showed that an increase in the electron-donating ability of substituents at both the nitrogen atom and the phosphorus atom results in a decrease in the degree of P-N bond cleavage. The primary and secondary diphenylphosphinic amides containing a β-hydroxyethyl group at the nitrogen atom are extremely unstable under the alkaline conditions and are converted quantitatively to the diphenylphosphinic acid salt.

Methods and compositions for treating cancer

The invention provides compounds and methods for treating cancer. Exemplary compounds are multi-functional compounds with two different moieties connected by a linker. Compounds of the invention can activate one or more pathways that result in the inhibit

PHOSPHORORGANISCHE VERBINDUNGEN 96. DIE SELECTIVE VERKNUEPFUNG BIOLOGISCH WICHTIGER FUNKTIONELLER GRUPPEN MIT PHOSPHORORGANISCHEN SAEUREN

Derivatives of phosphinic, phosphonic, and phosphoric acids of the general type R1R2P(O)X show selectivity in their reactions with nucleophiles RYH (R = n-C4H9; Y = O, NR or S) according the Eq. (1); the selectivity depends on the nature of the leaving group (X = Cl, F, CN, N3 or OC6H4NO2(p)) and the base used.The nature of the ligands R1 and R2, exert a comparatively minor influence on the reaction.Method: (a) The phosphylating agent R1R2P(O)X was allowed to react with mixture of two nucleophiles RYH and RY'H in competition (Reagent ratio 1:1:1).The product mixture (R1R2P(O)YR + R1R2P(O)Y'R was then analyzed. (b) Compounds of the type HY-CH2-CH2-Y'H (serine-n-butylamide L-cysteinmethylester) were reacted with the phosphylating agent R1R2P(O)X (reagent ratio 1:1) according the Eqs. (3) and (4) respectively.The products were isolated, identified and the yields quantitatively determined.Results: For X = F, CN, OC6H4NO2 (p), the O-ester is formed virtually exclusively.For X = Cl, only amides are formed.Azides (X = N3) show no selectivity.In competition reactions using n-butylamine and n-butylthiol, the organophosphorus chlorides (X = Cl) were found to be N-selective,, whereas the corresponding cyanides (X = CN) were S-selective.In competition reactions using n-butanol and n-butylthiol, the organophosphorus fluorides (X = F) p-nitrophenylesters (X = OC6H4NO2(p)) and cyanides (X = CN) were all O-selective.