Basic additive

A second approach modifies the CA resist chemistry. Eor example, researchers have introduced basic additives into the resist formulation to minimize the impact of surface contamination of the resist film (82,83). A resist that already contains added base (and consequendy requites a larger imaging dose) should be less affected by the absorption of small amounts of basic contaminants. Systems of this type have been claimed to have improved resolution as well. The rationalization here is that the acid that diffuses into the unexposed regions of the resist film is neutralized and does not contribute to image degradation (84,85). 

Soluble analogues of these difunctional initiators have been prepared either by addition of small amounts of weakly basic additives such as triethylamine (73) or anisole (74) which have relatively minor effects on diene microstmcture (37). Another method to solubilize these initiators is to use a seeding technique, whereby small amounts of diene monomer are added to form a hydrocarbon-soluble, oligomeric dilithium-initiating species (69,75). 

RC02)0, R OH, BU3P, excellent yields. The nearly neutral esterification proceeds without the need for basic additives. 

Table 2 Hydrogenative aldol cyclization is promoted through the use of cationic Rh precatalysts and substoichiometric quantities of mild basic additives a... 

Detailed aspects of the catalytic mechanism remain unclear. However, influence of basic additives on the partitioning of the conventional hydrogenation and reductive cyclization manifolds coupled with the requirement of cationic rhodium pre-catalysts suggests deprotonation of a cationic rhodium(m) dihydride intermediate. Cationic rhodium hydrides are more acidic than their neutral counterparts and, in the context of hydrogenation, their deprotonation is believed to give rise to monohydride-based catalytic cycles.98,98a,98b Predicated on this... 

Scheme 22.4 A bifurcated mechanism accounting for the effect of basic additives.

In the case of methyl vinyl ketone (MVK), similar reactivity is observed. Exposure of MVK (150 mol%) and p-nitrobenzaldehyde to basic hydrogenation conditions provides the corresponding aldol product in good yield, though poor dia-stereoselectivity is observed [24a]. Remarkably, upon use of tris(2-furyl)phos-phine as ligand and Li2C03 as basic additive, the same aldol product is formed with high levels of syn-selectivity [24 e]. Addition of MVK to activated ketones such as l-(3-bromophenyl)propane-l,2-dione is accomplished under similar con-... 

The effect is interpreted as evidence of the operation of the homo-/hetero-conjugate mechanism. The authors presume that for the mechanism given by equation 1, for additives P which are much less basic than the nucleophile N, electrophilic catalysis also occurs both with the hetero-conjugate N+HP formed between the conjugate acid of the nucleophile, N, and P, as well as with the homo-conjugate Nu+HNu. For more basic additives, electrophilic catalysis is possible by the species PH+ and its homo-conjugate PHP+153 162 182. 

In order to increase the selectivity in diene hydrogenation, low-temperature basic additives and the use of less polar solvents may help. In special cases, treatment of the catalysts with the salts of heavy metals (Zn, Cd, Pb) can be the method used to modify the activity and selectivity53. Rh and Ir catalysts could be selectively poisoned with CO-containing hydrogen, in order to saturate 1,3-butadiene to 1-butene without isomerization54. 

Zaccheria et al. have reported the selective transformation of various ketones employing a CU/AI2O3 catalyst with a 8% copper content, without the need for any kind of basic additive [110]. Table 6.8 presents the most interesting results. Of particular interest is the hydrogenation of p-isobutylacetophenone, where the excellent selectivity obtained makes the CU/AI2O3 catalyst competitive with other heterogeneous catalysts reported so far [109]. 

In vivo results correspond quite well to those of the in vitro experiments although the effect of a basic additive seems to be greater in vivo. It is possible to increase the dissolution rate of PVM-MA esters in tear fluid by adding disodium phosphate or possibly other basic salts to the matrices. With basic additives it may be possible to modify drug release and polymer dissolution also in the case of other polyacids. 

The last two catalytic systems available are intimately based on the stoichiometric ligands 22 and 23, derived from the dipeptide and the chiral phosphoric acid, respectively. The addition of basic additives to slow down or suppress the background reaction allowed the use of catalytic amounts of the ligand. In his initial report, Shi and coworkers have shown that adding 1 equivalent of ethyl methoxyacetate allowed the catalyst loading to be decreased to 0.25 equiv (equation 96) . Under these conditions, the enantioselectivities are similar to those reported in Figure 7. 

Whereas THF and DME were suitable solvents, Lewis basic additives such as HMPA, DMSO or TMEDA hampered the reaction.82 These results point towards an intramolecular assistance of the zinc coordinated by the nitrogen atom. A related effect was evidenced in the additions of Grignard reagents to allylic alcohols83-87. Two mechanisms were proposed for the allylzincation of homoallylic amines involving formation of a complex with the... 

The degradation rate can be controlled using acidic and basic excipients acidic excipients increase the degradation rates and facilitate a zero-order release rate over a 2-week period (Sparer et al. 1984). Basic additives increase the degradation time of the polymers and create a polymer that degrades specifically at the surface (Heller 1985). By careful choice of the excipient added, the degradation rate can be closely controlled. No experiments have shown the use of these polymers with proteins or peptides. This is not, however, indicative of the fact that these polymers are not compatible with proteins or peptides, but they are probably not the most appropriate polymeric carrier for oral delivery of biomacromolecules. 

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