Tri(2-furyl)phosphine CAS NO.5518-52-5

Tri(2-furyl)phosphine CAS NO.5518-52-5

Organophosphorus Compounds Diphosphines, sometimes called bisphosphanes, are organophosphorus compounds used as ligands in inorganic and organometallic chemistry. They are identified by the presence of two phosphino groups linked by a backbone, and are usually chelating. Introduction of...
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Product Details

Tri(2-furyl)phosphine   CAS NO.5518-52-5 Basic information

Product   Name

 Tri(2-furyl)phosphine

Synonyms

SALOR-INT   L308749-1EA;TRIS(2-FURYL)PHOSPHINE;TRI(2-FURYL)PHOSPHINE;Tri(2-furyl)phosphine,97%;Tri-2-furylphosphine,98+%;TRI-(2-FURYL)PHOSPHINE   98%;2,2',2''-Phosphinidynetrisfuran;Tri(2-furanyl)phosphine

Structure  

5518-52-5.gif                        

CAS   NO

5518-52-5

Appearance

white   to light yellow crystal powde

Assay

98%

MF:

C12H9O3P

MW

232.17

EINECS

1312995-182-4

Product   Categories

Ligand;Phosphine Ligands;Synthetic Organic Chemistry;Catalysis and Inorganic Chemistry;Phosphine Ligands;Phosphorus Compounds;organophosphorus ligand;Aromatics;Chelating Agents & Ligands;Heterocycles;Achiral Phosphine;Aryl Phosphine

Storage  

Shading,  sealed, dry place.

Capacity

10000KG /month

Package  

In   paper drums /Fluoride drums /iron drums /plastic drums/IBC Tank ,etc.

Shipment method  

By  Sea ,Air ,Courier door to door ,etc.

Loading   Port

China   any port ,Beijing ,Shanghai ,Hong Kong etc.

Application  

A   phopshine ligand used in transition-metal mediated organic synthesis, in   particular in wittig reactions to improved (Z) selectivity.

 

Organophosphorus Compounds

Diphosphines, sometimes called bisphosphanes, are organophosphorus compounds used as ligands in inorganic and organometallic chemistry. They are identified by the presence of two phosphino groups linked by a backbone, and are usually chelating.

 

Introduction of Tri(2-furyl)phosphine CAS NO.5518-52-5

The cores of many types of polymers, ligands, natural products, and pharmaceuticals contain biaryl or substituted aromatic structures, and efficient methods of synthesizing these structures are crucial to the work of a broad spectrum of organic chemists. Recently, Pd-catalyzed carbon-carbon bond-forming processes have risen in popularity for this purpose.new bulky and electron-rich phosphine ligands, which can dramatically improve the efficiency and selectivity of such cross-coupling reactions, have beenintroduced.These ligands can be used for a wide variety of palladium-catalyzed carbon-carbon, carbon-nitrogen, and carbon-oxygen bond-forming processes as well as serving as supporting ligands for a number of other reactions.


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