2272-04-0

Basic information

• Product Name: Benzoic acid, 4-(diphenylphosphinyl)-
• CAS NO: 2272-04-0
• Molecular Formula: C19H15O3P
• Molecular Weight: 322.3
• Mol File: 2272-04-0.mol

Chemical Properties

• CAS DataBase Reference: Benzoic acid, 4-(diphenylphosphinyl)-(CAS DataBase Reference)
• NIST Chemistry Reference: Benzoic acid, 4-(diphenylphosphinyl)-(2272-04-0)
• EPA Substance Registry System: Benzoic acid, 4-(diphenylphosphinyl)-(2272-04-0)

Safety Data

• Hazardous Substances Data: 2272-04-0(Hazardous Substances Data)

Upstream product

• 1031-93-2 diphenyl(p-tolyl)phosphine 
• 1005-32-9 p-tolyldichlorophosphine 
• 619-58-9 4-iodobenzoic acid 
• 4559-70-0 Diphenylphosphine oxide 
• 586-76-5 4-Bromobenzoic acid 
• 74-11-3 para-chlorobenzoic acid 
• 1445-91-6 (S)-1-phenylethanol 
• 2129-31-9 4-diphenylphosphanobenzoic acid 
• 86087-24-3 (R)-3-Hydroxytetrahydrofuran 
• 80-97-7 Cholestanol 
• 2216-51-5 (-)-menthol 
• 124338-54-1 (2R,4R)-2-(benzyloxy)-4-pentanol 
• 6169-06-8 (S)-2-Octanol 
• 6840-28-4 diphenyl(p-tolyl)phosphine oxide 

Downstream Products

• 78952-83-7 [4-diphenylphosphinyl]benzoyl chloride 
• 101630-35-7 (4-(ethoxycarbonyl)phenyl)diphenylphosphine oxide 
• 5068-20-2 (4-(hydroxymethyl)phenyl)diphenylphosphine oxide 
• 6840-28-4 diphenyl(p-tolyl)phosphine oxide 
• 3547-02-2 1,4-bis(p-nitrostyryl)benzene 

Relevant articles and documents

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METHOD FOR SOLUTION-PHASE PEPTIDE SYNTHESIS

The present disclosure relates in general to the field of peptide synthesis. In general, the system provides for solution-phase peptide synthesis methods in organic solvents, some of which are immiscible with aqueous solutions, alkane solvents, or both, that allow for purification with minimal chromatography, recrystallization, or polymer supports, and allows for high overall yield and purity. The disclosed systems and methods support a wide variety of scenarios and include various products and services.

POLYMER COMPLEX AND PRODUCTION PROCESS THEREFOR

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Electrophilic Phosphonium Cation-Mediated Phosphane Oxide Reduction Using Oxalyl Chloride and Hydrogen

The metal-free reduction of phosphane oxides with molecular hydrogen (H2) using oxalyl chloride as activating agent was achieved. Quantum-mechanical investigations support the heterolytic splitting of H2 by the in situ formed electrophilic phosphonium cation (EPC) and phosphane oxide and subsequent barrierless conversion to the phosphane and HCl. The reaction can also be catalyzed by the frustrated Lewis pair (FLP) consisting of B(2,6-F2C6H3)3 and 2,6-lutidine or phosphane oxide as Lewis base. This novel reduction was demonstrated for triaryl and diaryl phosphane oxides providing access to phosphanes in good to excellent yields (51–93 %).

Ruthenium arene complexes with triphenylphosphane ligands: Cytotoxicity towards pancreatic cancer cells, interaction with model proteins, and effect of ethacrynic acid substitution

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SYSTEM AND METHOD FOR SOLUTION PHASE GAP PEPTIDE SYNTHESIS

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