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Template directed methods

Organoclay materials with higher-order organization can also be prepared by template-directed methods involving self-assembled supramolecular structures. In this approach, preformed organic architectures in the form of tubes, fibers, hollow shells, gyroids, helicoids, and so on are transferred into hybrid materials exhibiting structural hierarchy, complex form and ordered mesoporosity [47-55]. For example,... [Pg.244]

Markowitz et al. developed a different approach, again in an attempt to overcome some of the inherent difficulties that arise when imprinted bulk materials are used as catalysts [82], Here, the authors used a template-directed method to imprint an a-chymotrypsin TSA at the surface of silica nanoparticles, prepared with a number of organically modified silanes as functional monomers. Silica particle formation was performed in a microemulsion, where a mixture of a non-ionic surfactant and... [Pg.339]

Fortunately, more efficient methods for the complexation of macrocyclic hosts with acyclic guest molecules have become available with the advent of supramo-lecular chemistry, resulting in higher yields in rotaxane and catenane synthesis. In the following sections, the preparation of different types of interlocked molecules, with the use of host-guest recognition, is discussed. It should be noted that these template-directed methods differ significantly from the above-mentioned stochastic approach [28]. [Pg.133]

ID assemblies of nanopaiticles refer to the controlled assembly of nanoparticles into wires, rods, belts, rings, and tubes, which have become the focus of intensive research owing to their unique application in mesoscopic physics and fabrication of nanoscale devices. The basic method for ID assemblies can be divided into template-directed method and template-free method which will be introduced in the following text. [Pg.2371]

The selective oxidative phenolic orf/io-coupling reaction of simple methyl-substituted phenols turned out to be challenging [12]. When 2,4-dime thy Iphenol (1) is treated by conventional or electro-organic methods, not only the desired biphenol (2) is formed but rather a plethora of polycyclic architectures (Scheme 2) is observed. The major product is Pummerer s ketone (3) and related compounds with a wide structural diversity [13-16]. Application of a boron tether ameliorated the situation tremendously, and biphenol (2) was obtained as the major product [17, 18]. This templated anodic oxidation of 1 represents a multistep process but is suitable for the electro-organic synthesis of (2) on larger scale (see entry Electrosynthesis Using Template-Directed Methods ) [19]. [Pg.144]

Electrosynthesis Using Template-Directed Methods, Scheme 1 Non-templated anodic oxidation of 2,4-dimethylphenol... [Pg.848]

See other pages where Template directed methods is mentioned: [Pg.340]    [Pg.206]    [Pg.19]    [Pg.34]    [Pg.702]    [Pg.266]    [Pg.214]    [Pg.2371]    [Pg.147]    [Pg.392]    [Pg.847]    [Pg.847]    [Pg.848]    [Pg.849]    [Pg.850]    [Pg.851]    [Pg.1423]    [Pg.30]    [Pg.323]    [Pg.324]   
See also in sourсe #XX -- [ Pg.244 ]



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Direct method

Direction Methods

Template directed

Template direction

Template method

Templating method

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