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Acid-base stabilization

The relative stabilities of the metal complexes of nucleosides are generally considered to be in the order G > A, C U, T however, this order does not obtain universaUy. h Thus the relative base affinities of Hg + and of Pb + appear tobeT>C>A>G and C > G > A, respectively. This difference results from the variety of sites to which metal ions can bind on the nucleic acid bases. Stability constants of the complexes between selected metal ions and nucleic acids (from nucleosides to nucleoside triphosphates) are shown in Table 3. [Pg.3171]

Kandambeth S, MaUick A, Lukose B et al (2012) Construction of crystaUine 2D covalent organic frameworks with remarkable chemical (acid/base) stability via a combined reversible and irreversible route. J Am Chem Soc 134 19524-19527... [Pg.176]

Most of the reactions of ester enolates described so far have centered on stabilized eno lates derived from 1 3 dicarbonyl compounds such as diethyl malonate and ethyl ace toacetate Although the synthetic value of these and related stabilized enolates is clear chemists have long been interested m extending the usefulness of nonstabilized enolates derived from simple esters Consider the deprotonation of an ester as represented by the acid—base reaction... [Pg.902]

Conditional Metal—Ligand Formation Constants Recognizing EDTA s acid-base properties is important. The formation constant for CdY in equation 9.11 assumes that EDTA is present as Y . If we restrict the pH to levels greater than 12, then equation 9.11 provides an adequate description of the formation of CdY . for pH levels less than 12, however, K overestimates the stability of the CdY complex. [Pg.315]

Absorption of Hydrogen Chloride. Effective heat stabilizers have the abiHty to bind hydrogen chloride. Most stabilizer systems contain one or more metallic soaps or salts which readily undergo a simple acid—base reaction with the by-product hydrogen chloride as the PVC degrades ... [Pg.545]

Flowever, extreme caution is necessary with mixed chemical systems since many which are thermodynamically unstable exhibit considerable kinetic stability. The kinetic barrier to stability may be overcome if traces of catalyst are present, and result in a violent reaction. The most common catalysts derive from metals, or their compounds, and the unpredictable behaviour of many reactions arises from the unwitting presence of impurities. Other catalysts include acids, bases, organic free-radical precursors, etc. Flence any system must be treated with care which... [Pg.228]

The following tables give a comparison of the stability of various silyl ethers to acid, base, and TBAF. The reported half-lives vary as a function of environment and acid or base concentration, but they help define the relative stabilities of these silyl groups. [Pg.138]

SF4 is unusual in apparently acting both as an electron-pair acceptor and an electron-pair donor (amphoteric Lewis acid-base). Thus pyridine forms a stable 1 1 adduct C5H5NSF4 which presumably has a pseudooctahedral (square-pyramidal) geometry. Likewise CsF (at 125°) and Me4NF (at —20°) form CsSFs and [NMe4]+[SFs] (Fig. 15.21a). By contrast, SF4 behaves as a donor to form 1 1 adducts with many Lewis acids the stability decreases in the sequence SbFs > AsFs > IrFs > BF3 > PF5 > ASF3. In view of the discussion on... [Pg.686]

The favorability of acid-base reactions is affected, in pa by electrostatic interactions between charged atoms a dipoles within the same molecule. The equilibrium w shift in the direction of an ion that is stabilized 1 intramolecular ion-dipole interactions. [Pg.54]

Reduction Conversion of Nitriles into Amines Reduction of a nitrile with LiAIH4 gives a primary amine, RNH . The reaction occurs by nucleophilic addition of hydride ion to the polar C=N bond, yielding an imine anion, which still contains a C=N bond and therefore undergoes a second nucleophilic addition of hydride to give a dianion. Both monoanion and dianion intermediates are undoubtedly stabilized by Lewis acid-base complexafion to an aluminum species, facilitating the second addition that would otherwise be difficult Protonation of the dianion by addition of water in a subsequent step gives the amine. [Pg.769]

Sec. 7.4.1), a large range of acid-base properties, and often a better solubility for many materials, electrolytes and nonelectrolytes, better compatibility with electrode materials, and increased chemical stability of the solution. Their drawbacks are lower conductivity, higher costs, flammability, and environmental problems. [Pg.457]

More recently considered candidates are large molecular anions with delocalized anionic charge, which offer low lattice energies, relatively small ion-ion interaction, and hence sufficient solubility and relatively large conductivity. Delocalization of the charge is achieved by electron-with drawing substituents such as -F or - CF3. Furthermore, these anions show a good electrochemical stability to oxidation. In contrast to Lewis acid-based salts they are chemically more stable with various solvents and often also show excellent thermal stability. [Pg.462]

A premium antiscalent product in this group is Belros 435 from Great Lakes Chemical Corporation (originally the brand was owned by Ciba-Geigy, then FMC). Belros 435 is a 35% w/w, phos-phinoacrylic acid-based product, similar in chemistry to the Belclene 161 (also from Great Lakes) used as a high-stability dispersant in BW internal treatment formulations. [Pg.370]

More recently, Stepanov et al. (1989) investigated the acid-base properties of the zwitterion 3.22 which is obtained in the diazotization of 5-amino-3-nitro-l,2,4-triazole. Under alkaline conditions the (Z)-diazoate dianion 3.23 is formed. It can be isomerized thermally to give the (E)-diazoate dianion 3.24. If the solution of this compound is acidified, the primary addition of a proton takes place at the anionic ring nitrogen yielding 3.25, and subsequently the hydrogen-bond-stabilized (Z)-iso-mer (3.26). Further acidification gives the nitrosoamine (3.27). [Pg.61]

A buffer is a mixture of a weak conjugate acid-base pair that stabilizes the pH... [Pg.566]

A major goal was to investigate the solid state structures of such compounds by single crystal X-ray diffraction. It was found that Lewis acid-base adducts R3M—ER3 show general structural trends, which allow estimations on the relative stability of the adducts. The experimental results were confirmed by computational calculations, giving even deeper insights into the structural parameters and the thermodynamic stability of simple Lewis acid-base adducts. In addition, their thermodynamic stability in solution was investigated by temperature-dependent NMR spectroscopy. [Pg.121]

See other pages where Acid-base stabilization is mentioned: [Pg.305]    [Pg.1379]    [Pg.1378]    [Pg.639]    [Pg.278]    [Pg.305]    [Pg.1379]    [Pg.1378]    [Pg.639]    [Pg.278]    [Pg.200]    [Pg.242]    [Pg.245]    [Pg.177]    [Pg.921]    [Pg.229]    [Pg.382]    [Pg.397]    [Pg.1110]    [Pg.360]    [Pg.511]    [Pg.367]    [Pg.88]    [Pg.55]    [Pg.460]    [Pg.345]    [Pg.594]    [Pg.339]    [Pg.943]    [Pg.105]    [Pg.117]    [Pg.123]    [Pg.123]    [Pg.157]    [Pg.157]   
See also in sourсe #XX -- [ Pg.211 ]



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Acid stabilization

Acids stability

Bases stability

Stabilizers acid

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