Microwave acceleration

Bu3Sn)20 BzCl. The use of microwaves accelerates this reaction. Bu2Sn(OMe)2 is reported to work better than Bu2SnO in the monoprotection of diols. The monoprotection of diols at the more hindered position can be accomplished through the stannylene if the reaction is quenched with PhMe2SiCl (45-77% yield).Microwave heating has been found to be effective for this transformation in some cases. ... 

Majetich G., Hicks R. Applications of Microwave-Accelerated Organic Synthesis... 

The microwave acceleration of Ugi condensations on a sohd support have been utilized in the synthesis of an 18-membered targeted hbrary of a-acylamino amides [60], Irradiation of the four components, immobilizing the amine on TentaGel S RAM, for 3-5 min in a single-mode microwave synthesizer gave the products in moderate to excellent yields and high purity (Scheme 7). 

Inhibitors for proteases plasmepsin I and II of the malaria parasite Plasmodium falciparum, with a good plasmepsin/human protease cathepsin D selectivity, have been identified via library construction involving rapid microwave-accelerated Suzuki reactions [57]. The phenyl ring of the biphenyl unit in the lead compound M-((lS)-l- [((lS,2S)-3- [(lS)-2-amino-l-(4-phenyl-benzyl)-2-oxoethyl]amino -2-hydroxy-l-phenoxypropyl)amino]carbonyl -2-methylpropyl)pyridine-2-carboxamide has been altered by performing Suzuki reactions on N-((lS)-l- [((lS,2S)-3- [(lS)-2-amino-l-(4-bromobenzyl)-2-oxoethyl]amino -2-hydroxy-l-phenoxypropyl)amino]carbonyl -2-methyl-propyl)pyridine-2-carboxamide (Scheme 37). In particular, a 2-benzofuryl moiety proved to be interesting since a Ki value of 13 nM for plasmepsin I and... 

Organ et al. from York University demonstrated that a diarylated IH-pyrazole-based library, based on the structure of the potent COX II inhibitor Celecoxib [4-(3-trifluoromethyl-5-(4-methylphenyl)-lH-pyrazol-l-yl)benzenesulfonamide], could be rapidly prepared using MAOS [59]. Microwave-accelerated Suzuki reaction on 4-(5-iodo-3-methyl-lH-pyrazol-l-yl)-benzenesulfonamide using heterogeneous Pd/C was the principal diversification step investigated (Scheme 41). The interest of the team in microwave... 

Different approaches towards pyrazoles have been described using microwave-accelerated cyclizations. A classical approach to pyrazoles is the cyclization of a j6-diketone with hydrazines. A series of 5-trichloromethyl-pyrazoles 58 and pyrazolium chlorides 59 were synthesized by reaction of a 4-methoxy-trihalo-3-alken-one 57 with differently substituted hydrazines (Scheme 19). The use of microwave and conventional heating for making pyrazoles gave... 

Benzofurans have been prepared by microwave-accelerated cyclocondensation of differently substituted salicylaldehydes 182 with esters of chloroacetic acid 183 in the presence of K2CO3 (used as the solid support) and tetrabutyl-ammonium bromide (TBAB) as phase transfer catalyst [120]. This method seemed general regarding the variations at the benzene ring and the nature of the ester moiety (Scheme 66). 

The availability of functionalized 2(lH)-pyrazinone in combination with the use of microwave accelerated solid-phase chemistry constitutes a sohd foundation for generating large libraries of compoimds suitable for medicinal chemistry. The authors have also shown that the scaffold can be further functionalized using the principles of cUck-chemistry , thereby paving the way towards highly substituted 2-pyridone structures [45-47]. 

Moberg et al. [146] modified further the bis(pyridylamide) ligand described by Trost for the preparation of a polymer-supported pyridylamide (113 in Scheme 60) for the microwave-accelerated molybdenum-catalyzed al-lylic alkylation. TentaGel resin was tested in the presence of high concentrations of reactants and gave, after a 30 min reaction, total conversion in the... 

MAE simply involves placing the sample with the solvent in specialized containers and heating the solvent using microwave energy. MAE is also sometimes called MASE, which can stand for microwave-assisted solvent extraction or microwave-accelerated solvent extraction. In any event, the extraction process is more rapid than Soxhlet extractions, can be run in batches, and reduces solvent consumption. As in the case of sonication, MAE may overcome retention of the analyte by the matrix, but analyte degradation can be a problem at higher temperatures in certain applications. 

Table 6.4 Scope of selectivity of amidoxime addition to DMAD and hydroxypyri midi none formation via microwave-accelerated thermal rearrangement. 

Wannberg J, Ersmark K, Larhed M (2006) Microwave-Accelerated Synthesis of Protease Inhibitors. 266 167-197... 

Utilizing the same aryl fluoride linker on conventional MeOPEG polymer, these authors also presented a microwave-accelerated liquid-phase synthesis of benzimidazoles (Scheme 7.70) [79]. This bicydic pharmacophore is an important and valuable structural element in medicinal chemistry, showing a broad spectrum of pharmacological activities, such as antihistaminic, antiparasitic, and antiviral effects. 

If tight ion pairs (between two hard ions) are involved in the reaction the microwave-accelerating effect then becomes more important, because of enhancement of ionic dissociation during the course of the reaction as tight ion pairs (GS) are transformed into more polar loose ion pairs (TS). 

If, on the other hand, loose ion pairs (between soft ions) are involved, microwave acceleration is limited, because ionic interactions are only slightly modified from GS to TS. 

The microwave-specific effect is more apparent in the case of demethylation (Sn2). The microwave acceleration clearly is more pronounced with the difficulty of the reaction, thus constituting a clear example of an increased microwave effect with a more difficult reaction, indicative of a later TS position along the reaction coordinate. The microwave effect may also be connected to the more localized charge in the Sn2 transition state (three centers) when compared to that of p-E2 (charge developed over five centers). 

Microwave-accelerated Solvent-free Organic Reactions... 

The corresponding bridgehead heterocydes are difficult to obtain by conventional heating methods since the reactions of a-tosyloxyketones with ethylenethioureas remain incomplete in an oil bath. The microwave-accelerated process, on the other hand, gets completed in a short time (Scheme 6.44) [147,148],... 

In a faster, selective and cleaner applications of the microwave-accelerated reactions, Stone-Elander et al. have synthesized a variety of radiolabeled (with 3H, 11C, and 19F) organic compounds via the nucleophilic aromatic and aliphatic substitution reactions, esterifications, condensations, hydrolysis and complexation reactions using monomodal MW cavities on microscale [121]. A substantially reduced level of radioactive waste is generated in these procedures that are discussed, at length, in Chapt. 13 [122]. 

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