Synthetic flexibility

Passive perimeter gas control systems are designed to alter the path of contaminant flow through the use of trenches or wells, and typically include synthetic flexible membrane liners (FMLs) and/or natural clays as containment materials. The membrane is held in place by a backfilled trench, the depth of which is determined by the distance to a limiting structure, such as groundwater or bedrock. A permeable trench installation functions to direct lateral migration to the surface, where the gases can be vented (if acceptable) or collected and conveyed to a treatment system (Figure 10a and 10b). 

As far as we know, this is the first molecular probe that includes two different types of reporter units activated upon on a specific stimulus. The other option to achieve dual detection would be to use two separate probes. However, in this case there could be a problem of competitive catalysis (circumstances in which the Km of the two substrate is not identical). In our probe, 6-aminoquinoline and 4-nitrophenol, detected by fluorescence and absorbance spectroscopy, respectively, were used as reporter units. Due to the synthetic flexibility of our approach, other reporter molecules with different types of functional groups, like amine or hydroxyl, can be linked to our molecular probe. The two assays must be orthogonal to each other, in order to prevent disturbances in the detection measurement. Another advantage of the probe is the aqueous solubility... 

In the discovery phase, a reaction route is developed to allow synthesis of a maximum number of analogues for pharmacological testing. Since the focus is on synthetic flexibility, issues of scale are not central. Once a lead compound exhibits a useful pharmacological activity and is identified as a candidate for further development, larger scale synthesis is required to evaluate stability, bioavailability, toxicity, physicochemical properties, and other compound properties. The Chemical Development Department is usually involved in the preparation of supplies for these activities. 

For convenience, many of the examples cited here will come from our own work. In our work we have taken advantage of the synthetic flexibility offered by the system shown below which is based on the ligand 2,2 -bipyridine (bpy). Synthetic studies... 

This chemistry would be even more useful if it was not restricted to A-methyl heterocycles. From the standpoint of synthetic flexibility, A-allyl heterocycles may be more... 

Alkynes are viable substrates for the tandem intramolecular silylformylation/allylsilyla-tion reaction. The 1,5-diastereoselechvity is reversed from that observed with alkene substrates, as the 1,5-anti product predominates (Scheme 5.24) [38]. Synthetic flexibility was demonstrated in that either of two carbon-silicon cleavage procedures may be employed. Protodesilylahon with tetra-n-butylammonium fluoride followed by acetylation (determi-... 

Amylose brushes (a layer consisting of polymer chains dangling in a solvent with one end attached to a surface is frequently referred to as a polymer brush) on spherical and planar surfaces can have several advantageous uses, such as detoxification of surfaces etc. The modification of surfaces with thin polymer films is widely used to tailor surface properties such as wettability, biocompatibility, corrosion resistance, and friction [142-144]. The advantage of polymer brushes over other surface modification methods like self-assembled monolayers is their mechanical and chemical robustness, coupled with a high degree of synthetic flexibility towards the introduction of a variety of functional groups. 

The use of activated esters provides a relatively high degree of synthetic flexibility. Thus, it is possible, for example, not only to synthesize any mixed peptide analogue required, but also to link azaamino acid residues directly in almost any desired number and sequence, enabling the preparation of pure azapeptides. 

Vinyl sulfoxides (221), which are aldehyde a-cation equivalents, and vinylthiolium ions (230), which are a.jj-unsaturated carbonyl 3-cation equivalents, are also suitable acceptors for silyl ketene acetals and enol silyl ethers (Scheme 36). Kita reports that the bulky r-butyldimethylsilyl ketene acetals and tri-methylsilyl ketene acetals form 1 1 adducts (224) and 1 2 adducts (225) with (221), respectively 91 mechanistically, these additions proceed via an initial Pummerer rearrangement The vinylthiolium ion additions are notable for their synthetic flexibility for example, additions to the ketene dithioacetal (229) proceed with higher diastereoselectivity than the corresponding enolate additions to a,3-unsaturated esters.9 lc,91d... 

An interesting use of the nickel-catalyzed allylic alkylation has prochiral allylic ketals as substrate (Scheme 8E.47) [206]. In contrast to the previous kinetic-resolution process, the enantioselectivity achieved in the ionization step is directly reflected in the stereochemical outcome of the reaction. Thus, the commonly observed variation of the enantioselectivity with respect to the structure of the nucleophile is avoided in this type of reaction. Depending on the method of isolation, the regio- and enantioselective substitution gives an asymmetric Michael adduct or an enol ether in quite good enantioselectivity to provide further synthetic flexibility. 

Polythiophenes (PTs) have received a great deal of attention due to their electrical properties, environmental stability in doped and undoped states, non-linear optical properties, and highly reversible redox switching [1]. Thiophene possesses a rich synthetic flexibility, allowing for the use of several polymerization methods and the incorporation of various side chain functionalities. Thus, it is of no great surprise that PTs have become the most widely studied of all conjugated polyheterocycles [184]. 

Whereas the sulfone group has been demonstrated to produce lower molecular hyperpolarizabilities than those of nitro groups, the difference becomes less as the degree of conjugation is increased. One would therefore expect that this difference will decrease further in more highly conjugated systems. The increased visible spectrum transparency and the synthetic flexibility may make these sulfonyl compounds important for some applications. 

Metathesis reactions may be intramolecular and ring-closing diene metathesis (RCM, implicated in Scheme 1.13, see Chapter 12) allows disconnections in retro-synthetic analysis otherwise of little use. The normal disconnection of the macrocyclic amide in Scheme 1.13 would be at the amide but, because of the ready reduction of alkenes to alkanes, the alternative disconnection now becomes a viable option. And since any of the C—C linkages could be formed by RCM, such a disconnection allows far greater synthetic flexibility than the conventional disconnection at the functional group. 

Polyphosphazenes are a relatively new class of biodegradable polymers. Their hydrolytic stability or instability is determined not by changes in the backbone structure but by changes in the side groups attached to an unconventional macromolecular backbone. Synthetic flexibility and versatile adaptability of polyphosphazenes make them unique for drug delivery applications. For example, Veronese et al.18 prepared polyphos-phazene microspheres with phenylalanine ethyl ester as a phosphorous substituent and loaded it with succinylsulphathiazole or naproxen. The kinetics of release from these matrices were very convenient in yielding local concentrations of the two drugs that are useful per se or when mixed with hydroxyapatite for better bone formation. Polyphosphazene matrices are also considered as potential vehicles for the delivery of proteins and vaccines.19... 

Anthraquinone dyes are prepared by the stepwise introduction of substituents onto the preformed anthraquinone skeleton (1) or ring closure of appropriately substituted precursors. The degree of freedom for producing a variety of different structures is restricted, and the availability of only eight substitution centers imposes a further restriction on synthetic flexibility. Therefore, there is significantly less synthetic versatility than in the case of azo dyes, and consequently less variety this is a drawback of anthraquinone dyes. 

Cyanines are by far the most popular and extensively researched chromo-phore for use in biological and medical imaging applications [70,72], They are used almost exclusively in fluorescence-related protocols. Their popularity may be attributable to factors such as their excellent synthetic flexibility and fluorescence properties, the latter being very high in some instances. Cyanines are the only synthetic near-infrared fluorophores which are commercially available (for... 

Realization of most or all of these criteria calls for the conversion of a pentose or hexose into a versatile five- or six-carbon synthon, preferably a stable building block with one or two chiral centers and with synthetically flexible... 

Being composed of two parts, there is a synthetic flexibility that is not available for single component molecular solvents. 

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