36375-86-7Relevant articles and documents
Zinc-mediated radical reactions of per- (or poly)fluorophenyl aromatic aldimines in aqueous media
Liu, Xinyuan,Zhu, Shizheng,Wang, Shaowu
, p. 683 - 691 (2004)
The intermolecular additions of alkyl halides to per- (or poly)fluorophenyl aromatic aldimines using zinc as a single-electron-transfer radical initiator have been studied in aqueous media. The reaction proceeds well for imines with different substituents at room temperature under air atmosphere and the corresponding fluorine-containing amines and 1,2-diamines are obtained in poor to good yields. A tentative reaction mechanism is proposed.
Preparation method of polyfluoroaniline
-
Paragraph 0050; 0051; 0052; 0053, (2018/08/03)
The invention relates to a preparation method of polyfluoroaniline, according to the method, the polyfluoroaniline is prepared by a two-step common reaction from polyfluorobenzene as a raw material, the method has the characteristics of low reaction temperature, small pressure, low cost, and the like, is suitable for industrial production application, and is convenient for large-scale production;the polyfluoroaniline product obtained by the method has less impurities and high product purity.
Selective radical amination of aldehydic C(sp2)-H bonds with fluoroaryl azides via Co(ii)-based metalloradical catalysis: Synthesis of N-fluoroaryl amides from aldehydes under neutral and nonoxidative conditions
Jin, Li-Mei,Lu, Hongjian,Cui, Yuan,Lizardi, Christopher L.,Arzua, Thiago N.,Wojtas, Lukasz,Cui, Xin,Zhang, X. Peter
, p. 2422 - 2427 (2014/05/20)
The Co(ii) complex of the D2h-symmetric amidoporphyrin 3,5-DitBu-IbuPhyrin, [Co(P1)], has proven to be an effective metalloradical catalyst for intermolecular amination of C(sp2)-H bonds of aldehydes with fluoroaryl azides. The [Co(P1)]-catalyzed process can employ aldehydes as the limiting reagents and operate under neutral and nonoxidative conditions, generating nitrogen gas as the only byproduct. The metalloradical aldehydic C-H amination is suitable for different combinations of aldehydes and fluoroaryl azides, producing the corresponding N-fluoroaryl amides in good to excellent yields. A series of mechanistic studies support a stepwise radical mechanism for the Co(ii)-catalyzed intermolecular C-H amination. This journal is the Partner Organisations 2014.
Isomerization and deuterium scrambling evidence for a change in the rate-limiting step during imine hydrogenation by Shvo's hydroxycyclopentadienyl ruthenium hydride
Casey, Charles P.,Johnson, Jeffrey B.
, p. 1883 - 1894 (2007/10/03)
Hydroxycyclopentadienyl ruthenium hydride 5 efficiently reduces imines below room temperature. Better donor substituents on nitrogen give rise to faster rates and a shift of the rate-determining step from hydrogen transfer to amine coordination. Reduction of electron-deficient N- benzilidenepentafluoroaniline (8) at 11°C resulted in free amine and kinetic isotope effects of kOH/kOD = 1.61 ± 0.08, k RuH/kRuD = 2.05 ± 0.08, and kRuHOH/ kRuDOD = 3.32 ± 0.14, indicative of rate-limiting concerted hydrogen transfer, a mechanism analogous to that proposed for aldehyde and ketone reduction. Reduction of electron-rich N-alkyl-substituted imine, N-isopropyl-(4-methyl)benzilidene amine (9), was accompanied by facile imine isomerization and scrambling of deuterium labels from reduction with 5-RuDOH into the N-alkyl substituent of both the amine complex and into the recovered imine. Inverse equilibrium isotope effects were observed in the reduction of N-benzilidene-tert-butylamine (11) at -48°C (kOH/kOD = 0.89 ± 0.06, kRuH/kRuD = 0.64 ± 0.05, and kRuHOH/kRuDOD = 0.56 ± 0.05). These results are consistent with a mechanism involving reversible hydrogen transfer followed by rate-limiting amine coordination.
