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Colloidal crystals devices fabrication

The purpose of this chapter is to provide an overview of ceramic materials used for photonic crystals, their synthesis, and macroscopic structures and architectures. Particularly close attention is given to the fabrication of silica colloidal crystals, since these forms are the most commonly studied. Initial efforts into devices are discussed, as are newer ceramic photonic crystal structures, including an overview of work in photonic crystal optical fibers. For completeness, nonoxide and organic photonic crystals also are included briefly. [Pg.365]

As mentioned earlier, colloidal photonic crystal devices were fabricated through a self-assembly process. This process is the most economic method to produce 3D nanostructures. When the size of a colloidal building block is half the wavelength of visible light, a physical change of the photonic crystals caused by the analytes converts into a color change. However, the width of the reflectance peak is usually broad, which disturbs the high sensitive characterization. [Pg.2407]

Colloidal crysfals can be viewed as the mesoscopic counterpart of atomic or molecular crystals. They have been used to explore diverse phenomena such as crystal growth [52-54] and glass transition [55,56], and have many interesting applications for sensors [57], in catalysis [58,59], advanced coatings [60], and for optical/electro-optical devices for information processing and storage [61,62]. In particular, their unusual optical properties, namely the diffraction of visible light and the existence of a photonic stop band, make them ideal candidates for the development of photonic materials [61,63-66]. They may lead to the fabrication... [Pg.214]

Particularly in 2D systems, control over the self-assembly of colloidal templates has offered a versatile way to produce patterned surfaces or arrays with a precision of few nanometres. Diblock copolymer micellar nanolithography (dBCML) is a versatile method that uses homopolymers or block copolymers for the production of complex surface structures with nanosized features [69], In contrast to other approaches like electron-beam lithography (EBL) and photolithography, dBCML does not require extensive equipment. In fact, it is commonly used in the fabrication of data storage devices and photonic crystals, in catalyses [70], and for the design of mesoporous films and nanoparticle arrays [71]. [Pg.88]

Membrane and microfiuidic devices have also been adopted for the precision manufacture of solids from double-emulsion templates. To date, several different types of particles have been successfully produced by incorporating use of various membrane and microfiuidic devices in processes of polymerization, gel formation, crystallization, and molecular or particle self-assembly. Membrane emulsification is more suited to the fabrication of less sophisticated particulates, such as solid lipid micro-Znanoparticles, gel microbeads, coherent polymeric microspheres, and inorganic particles such as silica microparticles. Microfiuidic devices allow more sophisticated particle designs to be created, such as colloidosomes, polymerosomes, 3D colloidal assemblies, asymmetric vesicles, core-shell polymer particles, and bichromal particles. [Pg.155]

See other pages where Colloidal crystals devices fabrication is mentioned: [Pg.288]    [Pg.324]    [Pg.321]    [Pg.310]    [Pg.330]    [Pg.207]    [Pg.151]    [Pg.174]    [Pg.415]    [Pg.420]    [Pg.333]    [Pg.223]    [Pg.576]    [Pg.36]    [Pg.37]    [Pg.53]    [Pg.2410]    [Pg.327]    [Pg.116]    [Pg.253]    [Pg.1455]   
See also in sourсe #XX -- [ Pg.420 ]



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