The reaction of Ph2PNHPPh2 (PNP) with RNCS (Et, Ph, p-NO2- (C6H4)) gives addition products resulting from the attack of the P atoms of PNP on the electrophilic carbon atom of the isothiocyanate. When PNP is reacted with EtNCS in a 1:2 molar ratio, the zwitterionic molecule EtNHC(S)PPh2=NP+Ph2C(S)NEt (HSNS) is obtained in high yield. HSNS can be protonated (H2SNS+) or deprotonated (SNS), behaving in the latter form as an S,N,S-donor pincer ligand. The reaction of HSNS with [(acac)Rh(CO)2] (acac=acetylacetonate) affords the zwitterionic metalate [(SNS)Rh(CO)]. Other products can be obtained depending on the R group, the PNP/RNCS ratio (1:1 or 1:2), and the reaction temperature. The proposed product of the primary attack of PNP on RNCS, Ph2PN=PPh2C(S)NHR (A), cannot be isolated. Reaction of A with another RNCS molecule leads to 1:2 addition compounds of the general formula RNHC(S)PPh2=NP+ Ph2C(S)NR (1), which can rearrange into the non-zwitterionic product RNHC(S)PPh2=NP(S)Ph2 (2) by eliminating a molecule of RNC. Two molecules of A can react together, yielding 1:1 PNP/RNCS zwitterionic products of the formula RNHCH[PPh2= NP(S)Ph2]PPh2=NP+Ph2C(S)NR (3). Compound 3 can then rearrange into RNHCH[PPh2=NP(S)Ph2]2 (4) by losing a RNC molecule. When R=Et (a), compounds 1a, 2a (HSNS), and 4a have been isolated and characterized. When R=Ph (b), compounds 2b and 4b can be prepared in high yield. When R=p-NO2C6H4 (c), only compound 3c is observed and isolated in high yield. The crystal structures of HSNS, [(SNS)Rh(CO)], and of the most representative products have been determined by X-ray diffraction methods
On the Reaction of Ph2PNHPPh2 with RNCS (R = Et, Ph, p-NO2C6H4). Preparation of the Zwitterionic Ligand EtNHC(S)Ph2P=NPPh2C(S)NEt (HSNS) and the Zwitterionic Metalate [(SNS)Rh(CO)] / Cauzzi, Daniele Alessandro; M., Asti; Cammi, Roberto; Graiff, Claudia; Pattacini, Roberto; Predieri, Giovanni; Stercoli, Alessandro; Tiripicchio, Antonio. - In: CHEMISTRY-A EUROPEAN JOURNAL. - ISSN 0947-6539. - 11:(2005), pp. 3413-3419. [10.1002/chem.200400906]
On the Reaction of Ph2PNHPPh2 with RNCS (R = Et, Ph, p-NO2C6H4). Preparation of the Zwitterionic Ligand EtNHC(S)Ph2P=NPPh2C(S)NEt (HSNS) and the Zwitterionic Metalate [(SNS)Rh(CO)]
CAUZZI, Daniele Alessandro;CAMMI, Roberto;GRAIFF, Claudia;PATTACINI, Roberto;PREDIERI, Giovanni;STERCOLI, Alessandro;TIRIPICCHIO, Antonio
2005-01-01
Abstract
The reaction of Ph2PNHPPh2 (PNP) with RNCS (Et, Ph, p-NO2- (C6H4)) gives addition products resulting from the attack of the P atoms of PNP on the electrophilic carbon atom of the isothiocyanate. When PNP is reacted with EtNCS in a 1:2 molar ratio, the zwitterionic molecule EtNHC(S)PPh2=NP+Ph2C(S)NEt (HSNS) is obtained in high yield. HSNS can be protonated (H2SNS+) or deprotonated (SNS), behaving in the latter form as an S,N,S-donor pincer ligand. The reaction of HSNS with [(acac)Rh(CO)2] (acac=acetylacetonate) affords the zwitterionic metalate [(SNS)Rh(CO)]. Other products can be obtained depending on the R group, the PNP/RNCS ratio (1:1 or 1:2), and the reaction temperature. The proposed product of the primary attack of PNP on RNCS, Ph2PN=PPh2C(S)NHR (A), cannot be isolated. Reaction of A with another RNCS molecule leads to 1:2 addition compounds of the general formula RNHC(S)PPh2=NP+ Ph2C(S)NR (1), which can rearrange into the non-zwitterionic product RNHC(S)PPh2=NP(S)Ph2 (2) by eliminating a molecule of RNC. Two molecules of A can react together, yielding 1:1 PNP/RNCS zwitterionic products of the formula RNHCH[PPh2= NP(S)Ph2]PPh2=NP+Ph2C(S)NR (3). Compound 3 can then rearrange into RNHCH[PPh2=NP(S)Ph2]2 (4) by losing a RNC molecule. When R=Et (a), compounds 1a, 2a (HSNS), and 4a have been isolated and characterized. When R=Ph (b), compounds 2b and 4b can be prepared in high yield. When R=p-NO2C6H4 (c), only compound 3c is observed and isolated in high yield. The crystal structures of HSNS, [(SNS)Rh(CO)], and of the most representative products have been determined by X-ray diffraction methodsFile | Dimensione | Formato | |
---|---|---|---|
01 Rhodium.pdf
non disponibili
Tipologia:
Documento in Post-print
Licenza:
Creative commons
Dimensione
331.57 kB
Formato
Adobe PDF
|
331.57 kB | Adobe PDF | Visualizza/Apri Richiedi una copia |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.