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Phenolics. These plastics allow the preparation of both random prepolymers, such as Baekelands A stage and true structopendant prepolymers, commonly known under the term novolaks (Figure 6). Novolaks permit one to take advantage of the newer prepolymer technology. Monomers are phenol, cresols, and formaldehyde. Molecular weights of the novolaks are between 300 and 700. Novolaks are obtained through careful selection of reaction conditions and catalysis of the phenol-formaldehyde reaction. Molecular weight, as well as the ratio of 2,2 - and 2,4 -links, can be controlled. These structural factors, studied extensively by Wood (28), have an eflFect on the physical properties of the cured polymer network. [Pg.179]

Scheme 23 shows how four possible diastereomers can arise from the combination of two sp -carbon centers C-1 and C-2 in a donor component 23-1 and an acceptor component 23-2. Species 23-3 and 23-4 are two diastereomers and 23-5 and 23-6 are their enantiomers.The problem of simple diastereoselection is the control of the diastereomer ratio 23-3-1-23-5/23-4-1-23-6. The enantiocontrol of 23-3 vs 23-5 or of 23-4 vs 23-6 cannot be achieved by simple diastereoselection in this case an external source of chirality has to be applied, for instance a chiral catalyst or the incorporation of stereogenic units in one of the components. Simple diastereoselection can be exerted in terms of closed and open transition states, depending on the mutual interaction of the termini X and Do, respectively. If these termini are linked via a six-membered chelate, a closed ( Zimmerman-Traxler ) transition state 23-7 with synperiplanar olefinic units is formed. On the other hand, if the termini have a repulsive interaction an open transition state 23-8 with an antiperiplanar arrangement of the olefinic units is adopted. Efficient stereocontrol via Zimmerman-Traxler transition states 24-1 to 24-4 is observed in aldol-type and allylborane carbonyl additions (Scheme 24). The crucial stereo differentiating interaction is the diaxial repulsion between Rax and R, which must be kept as low as possible. Only small substituents (nor-... Scheme 23 shows how four possible diastereomers can arise from the combination of two sp -carbon centers C-1 and C-2 in a donor component 23-1 and an acceptor component 23-2. Species 23-3 and 23-4 are two diastereomers and 23-5 and 23-6 are their enantiomers.The problem of simple diastereoselection is the control of the diastereomer ratio 23-3-1-23-5/23-4-1-23-6. The enantiocontrol of 23-3 vs 23-5 or of 23-4 vs 23-6 cannot be achieved by simple diastereoselection in this case an external source of chirality has to be applied, for instance a chiral catalyst or the incorporation of stereogenic units in one of the components. Simple diastereoselection can be exerted in terms of closed and open transition states, depending on the mutual interaction of the termini X and Do, respectively. If these termini are linked via a six-membered chelate, a closed ( Zimmerman-Traxler ) transition state 23-7 with synperiplanar olefinic units is formed. On the other hand, if the termini have a repulsive interaction an open transition state 23-8 with an antiperiplanar arrangement of the olefinic units is adopted. Efficient stereocontrol via Zimmerman-Traxler transition states 24-1 to 24-4 is observed in aldol-type and allylborane carbonyl additions (Scheme 24). The crucial stereo differentiating interaction is the diaxial repulsion between Rax and R, which must be kept as low as possible. Only small substituents (nor-...
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