Organic and Nanocomposite Optical Materials: Volume 846Rapid advances in complex macromolecular synthesis and the fabrication of nanostructures have provided expansive opportunities for the development of new materials with unique optical and nonlinear optical properties. Key to continual progress is the establishment of robust structure-property-processing relationships that will provide a framework to evaluate ultimate potential, articulate relevant figures of merit, and engineer materials systems for specific applications. Success necessitates interactions across diverse disciplines spanning theory, synthesis, fabrication, characterization and device evaluation for photonic applications. This book addresses the challenges associated with the synthesis, theory and characterization of new compounds and nanostructured materials that exhibit, or are formed, using unique photophysics. Topics include: nonlinear optical properties materials; nonlinear optical materials; organometallic optical materials; plasmonics; electro-optical and electronic materials; organic and hybrid light-emitting devices; nanocomposite optical materials; and organic photonic bandgap structures. |
Contents
Coherent | 3 |
Theoretical Study on OpenShell Nonlinear Optical Systems | 13 |
NONLINEAR OPTICAL MATERIALS | 24 |
Copyright | |
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2005 Materials Research absorption aggregates angle Appl band gap beam calculated Chem chromophore clusters colloidal complexes concentration conjugated decrease density deposition devices dielectric diffraction dipole diradical diradical character doped effect efficiency electron energy transfer enhancement erbium excited exciton exhibit experimental fabrication fluorene fluorescence frequency function increase infiltration intensity inverse opal iridium(III irradiation ISBN laser layer Lett ligand light linear luminescence Materials Research Society measured metal microscope molecular molecules monomer nanocomposite nanocrystals nanoparticles nanoshell nanostructures nonlinear optical observed OLED optical properties organic particles PDA nanocrystals peak perylene Ph-PPV phosphorescent photonic crystal Phys plasmon platinum(II polarizability polarized polymer potential Proc ratio refractive index resonance sample semiconductor shell shown in Figure shows silica solution spectrum spheres structure substrate surface Symp synthesis temperature tetracene thickness thin films TiO2 transistor triplet two-photon wavelength Wavelength nm