Materials photonic

Jensen, K. F., Micro-reaction engineering applications of reaction engineering to processing of electronic and photonic materials, Chem. Eng. Sci., 42, 923-958 (1987). [Pg.432]

Scientific American, Materials for Economic Growth. Oct. 1986. See in particular the articles by Chaudhari, P. Electronic And Magnetic Materials, by Rowell, J. M. Photonic Materials, and by Mayo, J. S. Materials for Information and Communication. ... [Pg.160]

Faculty of Applied Chemical Engineering, Research Center for Photonic Materials and Devices, Chonnam National University, 500-757 Gwangju, Korea... [Pg.473]

H. S. Nalwa, Ed., Handbook of Advanced Electronic and Photonic Materials and Devices. Academic Press, Boston, 2000. [Pg.211]

Pauzauzkie, P. Yang, P. 2006. Nanowire photonics. Materials Today 9 36. [Pg.467]

R Kiebooms, R Menon, and K Lee, Synthesis, electrical, and optical properties of conjugated polymers, in Handbook of Advanced Electronic and Photonic Materials and Devices, FLS. Nalwa, Ed., Academic Press, New York, 2001, pp. 1-102. [Pg.36]

Kim HM, Cho BR (2009) Two-photon materials with large two-photon cross sections. Structure-property relationship. Chem Commun 2 153-164... [Pg.223]

Electronic and Photonic Materials Physics Research, Agere Systems, Murray Hill, NJ 07974, U.S.A. [Pg.67]

Poly(methyl methacrylate) (PMMA) exposed to radiation at 248-nm, 13-ns pulses (FWHM) and a fluence of 0.4 or 0.8 mJ/cm2 is an example of a system that exhibits the requirement of incubation pulses prior to the onset of ablation.28 Sufficient photon-material interaction is present for the ablation of good absorbing polymers thus, incubation is typically not observed and is not pertinent for the remainder of this discussion. [Pg.5]

Hillmer, H. and Germann, R. (eds), 2003, Photonic Materials for Optical Communications, MRS Bulletin 5 340-377. [Pg.66]

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]

Presently, the studies on porous silicon are considered to be a very promising field for advanced research oriented in the photonic materials to make light emitting diodes (LED), and mostly as sensors and biosensors of various components in solutions as well as in gaseous phases. [Pg.320]

Some technologies for nanocrystalline photonic materials have been introduced, some in detail. One of the attractive points of nanocrystals in other fields of materials is that the resultant optical properties are very predictable. This enables us further to design new luminous materials. [Pg.696]

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