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Phosphorous-based substituents

The introduction of phosphorous substituents is easily accomplished by deprotonation of the a positions of terminal thiophene rings of the thiahe-hcene scaffold with wBuLi at —78 °C and reaction with the appropriate phosphorous-based electrophile. As mentioned before, the use of the appropriate equivalents (2 or 4 equiv.) of nBuLi and of the electrophile, selectively leads to mono- or difunctionalization of the terminal thiophene rings (Scheme 31). [Pg.27]

Anionic substituents that are considered are the salts of carboxylic acids, phosphoric acids, and sulfur acids. The salts of sulfur acids are chosen based on their low pKa values that allow these derivatives to remain un-protonated (anionic) throughout the pH range used in and experienced by pharmaceutical formulations. Figure 7 shows the chemical structures of the three different families of anionic CD derivatives... [Pg.60]

A protocol has been reported based on a cyclization procedure followed by hydrolysis and oxidation, which allowed the preparation of a-keto-(3-lactams (Scheme 11), [59]. The cyclization of imines with acetylglyoxylic acid, in the presence of POCI3 and Et3N, gave 3-acetoxy-(3-lactams in good yields as cis-isomers, prevalently. These latter were hydrolyzed to alcohols in excellent yields under very mild conditions. Subsequent oxidations were performed by treatment with dimethyl sulfoxide (DMSO) in the presence of phosphorous pentoxide to give a-keto-(3-lactams. More 2-azetidinones were synthesized varying the substituent of the acetyl moiety. [Pg.110]

There are various types of organic proton exchangers (34, 35, 38). Diesters of phosphoric acid, (RO)2P = 0(0H), phosphonic acids, R(RO)P = 0(0H), and phos-phinic acids, R2P = 0(0H), where R represents linear or branched alkyl or phenyl substituents, are the most common cation exchangers developed in liquid-liquid extraction for the extraction of trivalent 4/and 5/elements. They were initially developed for the American TALSPEAK and the Japanese DIDPA processes and have recently been introduced in the French DIAMEX-SANEX process. As for previously described NOPCs, these organophosphorus acids present oxygen-donor atoms (hard bases) in their structures and therefore will easily coordinate trivalent lanthanide and actinide cations, but they will not allow complete discrimination of the two families of elements. However, contrary to previously described neutral organophosphorus... [Pg.129]

When in the structural vicinity of a fluorine substituent, phosphorous chemical shifts can be significantly affected by the presence of fluorine substituents but not in the way one might think. In contrast to the intuitive expectation based upon the inductive effect of fluorine, which results in the deshielding of protons and carbons in their vicinity, the effect of proximal fluorine upon the chemical shifts of phosphorous compounds is to shield the phosphorous nuclei. Scheme 2.10 provides a few examples. [Pg.19]

Estimation methods for the hydrolysis rates of several types of carboxylic acid esters, carbamates, aromatic nitriles, and phosphoric acid esters have been reported. Hydrolysis rates are subject to substituent effects, and consequently LFERs, as represented by Hammett or Taft correlations, have been applied to their estimations. Reviews (e.g., Harris, 1990 Peijnenburg, 1991 Nendza, 1998) reveal that QSARs are available only for a few compound classes and are based mostly on... [Pg.325]

The vinylogous Mannich reaction of 2 silyloxy furans and imines may also be catalyzed through chiral Brpnsted acids, as shown by Akiyama et al. [10]. Previously, Akiyama [11] and Terada [12] had independently discovered that 3,3 substituted BINOL based phosphoric acids were excellent Bronsted acids for a broad range of mainly imine addition reactions via protonation of the imines and in situ formation of chiral iminium contact ion pairs. Using the slightly modified phosphoric acid 28 as catalyst carrying additional iodine substituents in the 6,6 positions, the y amino substituted butenolides 27 were obtained in excellent enantioselectivity and variable diastereoselectivity (Table 5.4). [Pg.164]

In 2008, Du and coworkers designed and synthesized novel double axially chiral phosphoric acid catalysts based on BINOL [28]. Subsequently, these catalysts have been successfully applied in asymmetric transfer hydrogenation of 2 substitued (Table 10.8) and 2,3 disubstitued quinolines (Scheme 10.26). They found that ether was the best solvent. For 2 substitued quinolines, up to 98% ee was obtained when the substitutent of catalyst was cyclohexanyl. [Pg.319]

Polynucleotides are polyesters of phosphoric acid with ribose (ribonucleic acids, RNAs) or with 2 -deoxyribose (deoxyribonucleic acids, DNAs). Because of their acid character, they are also known as nucleic acids. Both pentoses occur in the furanose form and carry purine or pyrimidine bases as substituents. [Pg.1025]

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See also in sourсe #XX -- [ Pg.27 ]



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Bases substituents

Phosphorous bases

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