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⚫ | | verifiedrevid = 430032953 | ||
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⚫ | | Name = Triphenylphosphine dichloride | ||
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⚫ | | ImageFile = Dichlorotriphenylphosphine-2D.png | ||
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⚫ | | ImageSize = 150px | ||
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⚫ | | ImageName = Structural formula | ||
| ImageSizeL1 = 150px | |||
⚫ | | ImageFileL1 = Dichlorotriphenylphosphine-molecular-from-xtal-1998-3D-balls.png | ||
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| ImageNameL1 = Ball-and-stick model | ||
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| ImageFileR1 = Dichlorotriphenylphosphine-molecular-from-xtal-1998-3D-vdW.png | ||
| ImageSizeR1 = 150px | |||
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| ImageNameR1 = Space-filling model | ||
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| PIN = Dichlorotri(phenyl)-λ<sup>5</sup>-phosphane | ||
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| OtherNames =Dichlorotriphenylphosphorane | ||
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|Section1={{Chembox Identifiers | ||
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| CASNo = 2526-64-9 | ||
| CASNo_Ref = {{cascite|correct|CAS}} | |||
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| UNII_Ref = {{fdacite|correct|FDA}} | |||
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| UNII = 6CL2293LZ3 | |||
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| PubChem = 260420 | |||
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| ChemSpiderID_Ref = {{chemspidercite|changed|chemspider}} | |||
| Appearance = | |||
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| ChemSpiderID = 228579 | ||
| SMILES = ClP(Cl)(c1ccccc1)(c1ccccc1)c1ccccc1 | |||
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| StdInChI_Ref = {{stdinchicite|changed|chemspider}} | |||
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| StdInChI = 1S/C18H15Cl2P/c19-21(20,16-10-4-1-5-11-16,17-12-6-2-7-13-17)18-14-8-3-9-15-18/h1-15H | |||
| BoilingPt = | |||
| StdInChIKey_Ref = {{stdinchicite|changed|chemspider}} | |||
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| StdInChIKey = ASWXNYNXAOQCCD-UHFFFAOYSA-N | |||
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⚫ | |Section2={{Chembox Properties | ||
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⚫ | | Formula = C<sub>18</sub>H<sub>15</sub>Cl<sub>2</sub>P | ||
| Dipole = | |||
⚫ | | MolarMass = 333.19 g/mol | ||
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⚫ | | Solubility = Reacts | ||
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| MeltingPtC = 176 | ||
⚫ | | MeltingPt_ref = <ref name="Grignard">{{cite journal | author = ], J. Savard | journal = ] | year = 1931 | volume = 192 | pages = 592–5}}</ref> 85-100 °C<ref name="e-EROS">], {{doi|10.1002/047084289X.rt371}}</ref> | ||
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⚫ | | OtherCompounds = ]s<br/>]<br/>]<br/>]<br/>]<br/>] | ||
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'''Triphenylphosphine dichloride''', |
'''Triphenylphosphine dichloride''', (C<sub>6</sub>H<sub>5</sub>)<sub>3</sub>PCl<sub>2</sub>, is a ] widely used in organic chemistry. Applications include the conversion of ]s and ]s to ]s, the cleavage of ]s to vicinal dichlorides and the chlorination of ]s to ]s.<ref name="e-EROS" /> | ||
== Structure == | == Structure == | ||
In ] |
In ]s such as ], Ph<sub>3</sub>PCl<sub>2</sub> adopts an ionic ] structure, Cl<sup>−</sup>,<ref name="Godfrey 1996">{{cite journal | journal = ] | year = 1996 | pages = 2521–2522 | doi = 10.1039/CC9960002521 |author1=S. M. Godfrey |author2=C. A. McAuliffe |author3=R. G. Pritchard |author4=J. M. Sheffield | title = An X-ray crystallorgraphic study of the reagent Ph3PCl2; not charge-transfer, R3P–Cl–Cl, trigonal bipyramidal or Cl but an unusual dinuclear ionic species, Cl containing long Cl–Cl contacts | issue = 22}}</ref> whereas in non-polar solvents like ] it exists as a non-solvated ] molecule.<ref>{{cite journal | journal = Chem. Commun. | year = 1998 | pages = 921–922 | doi = 10.1039/a800820e |author1=S. M. Godfrey |author2=C. A. McAuliffe |author3=J. M. Sheffield | title = Structural dependence of the reagent Ph3PCl2 on the nature of the solvent, both in the solid state and in solution; X-ray crystal structure of trigonal bipyramidal Ph3PCl2, the first structurally characterised five-coordinate R3PCl2 compound | issue = 8}}</ref> Two species can also adopt an unusual dinuclear ionic structure—both interacting with a Cl<sup>−</sup> via long Cl–Cl contacts.<ref name="Godfrey 1996"/> | ||
<gallery> | <gallery> | ||
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Both reagents are typically used in solution to ensure the correct ].<ref name="e-EROS" /> | Both reagents are typically used in solution to ensure the correct ].<ref name="e-EROS" /> | ||
Ph<sub>3</sub>PCl<sub>2</sub> can also be obtained by the reaction of iodobenzene dichloride (PhICl<sub>2</sub>) and triphenylphosphine.<ref>Carle, M. S., Shimokura, G. K. and Murphy, G. K. (2016), Iodobenzene Dichloride in the Esterification and Amidation of Carboxylic Acids: In-Situ Synthesis of Ph3PCl2. ], 2016: 3930–3933. {{DOI:10.1002/ejoc.201600714}}</ref> | |||
Alternatively, Ph<sub>3</sub>PCl<sub>2</sub> can be obtained by chlorination of ] with, for example, ], as in Grignard's original 1931 synthesis.<ref name="Grignard" /> | Alternatively, Ph<sub>3</sub>PCl<sub>2</sub> can be obtained by chlorination of ] with, for example, ], as in Grignard's original 1931 synthesis.<ref name="Grignard" /> | ||
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Latest revision as of 00:41, 8 June 2023
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Names | |||
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Preferred IUPAC name Dichlorotri(phenyl)-λ-phosphane | |||
Other names Dichlorotriphenylphosphorane | |||
Identifiers | |||
CAS Number | |||
3D model (JSmol) | |||
ChemSpider | |||
ECHA InfoCard | 100.107.819 | ||
PubChem CID | |||
UNII | |||
CompTox Dashboard (EPA) | |||
InChI
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SMILES
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Properties | |||
Chemical formula | C18H15Cl2P | ||
Molar mass | 333.19 g/mol | ||
Melting point | 176 °C (349 °F; 449 K) 85-100 °C | ||
Solubility in water | Reacts | ||
Related compounds | |||
Related compounds | Phosphoranes Triphenylphosphine Phosphorus trichloride Phosphorus pentachloride Phosphorus halides Tetraphenylphosphonium chloride | ||
Except where otherwise noted, data are given for materials in their standard state (at 25 °C , 100 kPa). N verify (what is ?) Infobox references |
Triphenylphosphine dichloride, (C6H5)3PCl2, is a chlorinating agent widely used in organic chemistry. Applications include the conversion of alcohols and ethers to alkyl chlorides, the cleavage of epoxides to vicinal dichlorides and the chlorination of carboxylic acids to acyl chlorides.
Structure
In polar solvents such as acetonitrile, Ph3PCl2 adopts an ionic phosphonium salt structure, Cl, whereas in non-polar solvents like diethyl ether it exists as a non-solvated trigonal bipyramidal molecule. Two species can also adopt an unusual dinuclear ionic structure—both interacting with a Cl via long Cl–Cl contacts.
Synthesis
Triphenylphosphine dichloride is usually prepared fresh by the addition of chlorine to triphenylphosphine.
- Ph3P + Cl2 → Ph3PCl2
Both reagents are typically used in solution to ensure the correct stoichiometry.
Ph3PCl2 can also be obtained by the reaction of iodobenzene dichloride (PhICl2) and triphenylphosphine.
Alternatively, Ph3PCl2 can be obtained by chlorination of triphenylphosphine oxide with, for example, phosphorus trichloride, as in Grignard's original 1931 synthesis.
References
- ^ Victor Grignard, J. Savard (1931). Comptes rendus de l'Académie des sciences. 192: 592–5.
{{cite journal}}
: Missing or empty|title=
(help) - ^ e-EROS Encyclopedia of Reagents for Organic Synthesis, doi:10.1002/047084289X.rt371
- ^ S. M. Godfrey; C. A. McAuliffe; R. G. Pritchard; J. M. Sheffield (1996). "An X-ray crystallorgraphic study of the reagent Ph3PCl2; not charge-transfer, R3P–Cl–Cl, trigonal bipyramidal or Cl but an unusual dinuclear ionic species, Cl containing long Cl–Cl contacts". Chemical Communications (22): 2521–2522. doi:10.1039/CC9960002521.
- S. M. Godfrey; C. A. McAuliffe; J. M. Sheffield (1998). "Structural dependence of the reagent Ph3PCl2 on the nature of the solvent, both in the solid state and in solution; X-ray crystal structure of trigonal bipyramidal Ph3PCl2, the first structurally characterised five-coordinate R3PCl2 compound". Chem. Commun. (8): 921–922. doi:10.1039/a800820e.
- Carle, M. S., Shimokura, G. K. and Murphy, G. K. (2016), Iodobenzene Dichloride in the Esterification and Amidation of Carboxylic Acids: In-Situ Synthesis of Ph3PCl2. Eur. J. Org. Chem., 2016: 3930–3933. {{DOI:10.1002/ejoc.201600714}}