71847-21-7Relevant academic research and scientific papers
Synthesis, crystal structures and magnetic properties of a P-stereogenic: Ortho -(4-amino-tempo)phosphinic amide radical and its CuIIcomplex
Navarro, Yolanda,Guedes, Guilherme P.,Del águila-Sánchez, Miguel A.,Iglesias, María José,Lloret, Francisco,López-Ortiz, Fernando
, p. 2585 - 2595 (2021)
The synthesis of phosphinic amides containing one 4-amino-TEMPO substituent at the ortho position has been achieved through copper(i) catalyzed cross-coupling reactions of ortho-iodophosphinic amides with 4-amino-TEMPO. The method has been extended to the preparation of the first example of a P-stereogenic ortho-(4-amino-tempo)phosphinic amide radical 10. The reaction of 10 with Cu(hfac)2 afforded the P-stereogenic CuII complex 19. The crystal structure of both chiral compounds is reported. The molecular structure of 10 consists of a supramolecular zig-zag chain formed by intermolecular hydrogen bonds between the NH group of the phosphinic amide moiety and the nitroxide oxygen atom. In complex 19, the ligand acts as a bridge between two CuII ions coordinated to the oxygen atoms of the PO and N-O· groups leading to the formation of a polymeric helicate chain in which the metal ions exist in a distorted octahedral geometry. The magnetic behavior of ligand 10 is characterized by very weak intermolecular antiferromagnetic interactions, whereas ferro- and anti-ferromagnetic interactions are present in complex 19. This journal is
Primary Amination of Ar2P(O)-H with (NH4)2CO3as an Ammonia Source under Simple and Mild Conditions and Its Extension to the Construction of Various P-N or P-O Bonds
Han, Ya-Ping,Tan, Yushi,Yang, Shang-Dong,Zhang, Hong-Yu,Zhang, Yuecheng,Zhao, Jiquan
, (2022/02/10)
A facile and efficient method for the synthesis of primary phosphinamides from Ar2P(O)-H reagents with stable and readily available ammonium carbonate as an ammonia source is disclosed herein for the first time. This ethyl bromoacetate-mediated primary am
A phosphoryl radical-initiated Atherton-Todd-type reaction under open air
Ou, Yingcong,Huang, Yuanting,He, Zhenlin,Yu, Guodian,Huo, Yanping,Li, Xianwei,Gao, Yang,Chen, Qian
supporting information, p. 1357 - 1360 (2020/02/11)
A phosphoryl radical-initiated Atherton-Todd-type reaction using air as the radical initiator and CHCl3 as the halogenating reagent for the phosphorylation of alcohols, phenols, and amines has been developed. This novel transformation provides a highly efficient route to important phosphinates, phosphinic amides, and phosphoramidates in up to 99% yield with a broad substrate scope under very mild conditions (48 examples).
Phosphinamide-directed ortho metalations: Application to the desymmetrization of the diphenylphosphoryl group
Fernández, Ignacio,Burgos, Pascual O?a,Gómez, Gloria Ruiz,Bled, Caroline,García-Granda, Santiago,Ortiz, Fernando López
, p. 611 - 614 (2007/10/03)
Diphenylphosphinamides have been regioselectively ortho-lithiated under mild conditions providing a simple access to ortho-functionalized derivatives in good yields. The application of the methodology to the diastereoselective desymmetrization of the phos
SOME NEW PHOSPHINIC AMIDES R2P(O)NHR'
Brueck, A.,Kuchen, W.,Peters, W.
, p. 129 - 134 (2007/10/03)
P,P-Diorganylphosphinic amides R2P(O)NHR' (R = tBu, iPr, Ph; R' = Et, Pr, Cy, iPr, tBu, Ph, etc.) have been prepared by reaction of R2PCl with the corresponding lithiated amine followed by oxidation with H2O2.Th
PHOSPHORORGANISCHE VERBINDUNGEN 96. DIE SELECTIVE VERKNUEPFUNG BIOLOGISCH WICHTIGER FUNKTIONELLER GRUPPEN MIT PHOSPHORORGANISCHEN SAEUREN
Horner, L,Gehring, R.
, p. 157 - 176 (2007/10/02)
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.
