Reactivity enhancement

The behavior of oligosiloxanediols in the presence of strong bases is different. The contribution to the overall process of the disproportionation reaction, involving a migration of the ultimate siloxane unit between siloxane molecules, is much greater and may even completely dominate the polycondensation reaction (80). The reactivity enhancement of the siloxane bond adjacent to the sHanolate anion can be understood in terms of n(0) (7 (SiO) conjugation. 

In the absence of die polyether, potassium fluoride is insoluble in benzene and unreactive toward alkyl halides. Similar enhancement of solubility and reactivity of other salts is observed in the presence of crown ethers The solubility and reactivity enhancement result because the ionic compound is dissociated to a tightly complexed cation and a naked anion. Figure 4.13 shows the tight coordination that can be achieved with a typical crown ether. The complexed cation, because it is surrounded by the nonpolar crown ether, has high solubility in the nonpolar media. To maintain electroneutrality, the anion is also transported into the solvent. The cation is shielded from interaction with the anion as a... 

The catalytic chemistry of M° depends on the elementary properties of M and on the structure and size of the M° nanoclusters ( quantum dots ) [2]. S may play a role as a reactivity enhancer of M°/S as a whole (co-catalytic role) and/or as a promoter of its catalytic chemoselectivity (promotional role) [3,4]. 

Although 1,1-disubstituted-l,3-dienes are quite unreactive in the Diels-Alder reaction, allylidenecyclopropanes exhibit a good reactivity especially toward activated dienophiles. The strain present in the alkylidenecyclopropane moiety is responsible for the reactivity enhancement observed in these compounds. The literature concerning the parent diene and few analogs until 1984 has been thoroughly reviewed by Krief [31]. Since then, some other examples of variously-substituted allylidenecyclopropane reacting as dienes in [4 + 2] cycloadditions were published. 

Contrary to conventional reactivity arguments, which imply that substitution at carbonyls by electronegative atoms reduces electron density at the carbonyl carbon and hence promotes addition to carbonyls, a systematic study of 13C NMR shift data for ester carbonyls shows that electron density is actually greater at such carbons (reactivity enhancement is actually due to destabilisation of the ground states of the esters by the electron-withdrawing substituents).132,133 Our observations are in line with those of Neovonen et al. Electron-withdrawing nitrogen in... 

An extension of Buchwald s Pd-catalyzed amination led to animation of 2-chlorobenzothiazole with piperidine 112 to form 113 [62]. The marked reactivity enhancement of the chloride is attributed to the polarization at C(2). The methodology is also suitable for 2-chlorobenzoxazole and 2-chlorobenzoimidazole. 

Figure 4. Liquefaction Reactivity Enhancement as a Function of Alkylation Extent for Three Pretreatment Methods.

Taken together, these data suggest that both alkylation and the presence of chlorine ions contributed to the observed liquefaction reactivity enhancement. Although the data are preliminary, we believe that iron pwite and perhaps other species in the coal mineral matter may be chlorinated to form metal chlorides such as FeCU such species are known to be active coal conversion catalysts (1112). 

Dramatic reactivity enhancements have also been reported for the Lewis acid modified cyanocuprates (89) 60 for example, additions of the a-hydroxyalkyl synthon ("CH(R)OH) reagents, (89a) and (89b), to... 

In 1971, Starks introduced the term phase-transfer catalysis to explain the critical role of tetraalkylammonium or phosphonium salts (Q 1 X ) in the reactions between two substances located in different immiscible phases [1], For instance, the displacement reaction of 1-chlorooctane with aqueous sodium cyanide is accelerated many thousand-fold by the addition of hexadecyltributylphosphonium bromide 1 as a phase-transfer catalyst (Scheme 1.1). The key element of this tremendous reactivity enhancement is the generation of quaternary phosphonium cyanide, which renders the cyanide anion organic soluble and sufficiently nucleophilic. 

Maruoka and coworkers also investigated the substantial reactivity enhancement of N-spiro chiral quaternary ammonium salt and simplification of its structure, the aim being to establish a truly practical method for the asymmetric synthesis of a-amino acids and their derivatives. As ultrasonic irradiation produces homogenization (i.e., very fine emulsions), it greatly increases the reactive interfacial area, which may in turn deliver a substantial rate acceleration in the liquid-liquid phase-transfer reactions. Indeed, sonication of the reaction mixture of 2, methyl iodide and (S,S)-lc (1 mol%) in toluene-50% KOH aqueous solution at 0 °C for 1 h gave rise to the corresponding alkylation product in 63% yield with 88% ee. Hence, the reaction was speeded up markedly, and the chemical yield and enantioselectivity were comparable with those of the reaction with simple stirring (0°C for 8h 64%, 90% ee) (Scheme 5.5) [10]. 

An increase in reactivity also can be observed in Diels-Alder reactions with normal electron demand if a given dienophile is reacted with a series of more and more electron-rich dienes. The reaction rates of the Diels-Alder reactions of Figure 15.22 show that the substituents MeO > Ph > alkyl are such reactivity-enhancing donors. The tabulated rate constants also show that a given donor substituent accelerates the Diels-Alder reaction more if located in position 1 of the diene than if located in position 2. 

---