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Optical Features (optical + feature)

Distribution by Scientific Domains
Polymers and Materials Science60%
Chemistry40%

Selected Abstracts

High Quality Factor Metallodielectric Hybrid Plasmonic,Photonic Crystals

ADVANCED FUNCTIONAL MATERIALS, Issue 12 2010
Xindi Yu
Abstract A 2D polystyrene colloidal crystal self-assembled on a flat gold surface supports multiple photonic and plasmonic propagating resonance modes. For both classes of modes, the quality factors can exceed 100, higher than the quality factor of surface plasmons (SP) at a polymer,gold interface. The spatial energy distribution of those resonance modes are carefully studied by measuring the optical response of the hybrid plasmonic,photonic crystal after coating with dielectric materials under different coating profiles. Computer simulations with results closely matching those of experiments provide a clear picture of the field distribution of each resonance mode. For the SP modes, there is strong confinement of electromagnetic energy near the metal surface, while for optical modes, the field is confined inside the spherical particles, far away from the metal. Coating of dielectric material on the crystal results in a large shift in optical features. A surface sensor based on the hybrid plasmonic,photonic crystal is proposed, and it is shown to have atomic layer sensitivity. An example of ethanol vapor sensing based on physisorption of ethanol onto the sensor surface is demonstrated. [source]

Synthesis, Structure, and Optical Properties of Terminally Sulfur-Functionalized Core-Substituted Naphthalene-Bisimide Dyes

HELVETICA CHIMICA ACTA, Issue 9 2006
Alfred B, aszczyk
Abstract The synthesis, characterization, and optical properties of a series of new 2,6-disubstituted naphthalene-bisimide dyes as molecular rods comprising terminal AcS groups is reported. The first series of dyes (1,3), comprising phenylhetero (Ph-X) core substituents, cover a broad range of the VIS spectrum, ranging from yellow (2) over red (3) to blue (1). The second series of dyes contains benzylhetero (Bn-X) core substituents (4,7). For the same heteroatom connecting the substituent to the naphthalene core, both series were found to display comparable colors. For the second series, the colors were blue (4), red (5), and violet (6, 7). The Ph-X-substituted dyes 1,3 are nonfluorescent, in contrast to the Bn-X-substituted compounds 4,7. This rich variety of optical features that can be adjusted by rather small alterations of the core substituents makes these structurally very comparable molecular rods ideal candidates for optically triggered molecular-transport investigations. Also, thanks to the terminal AcS groups, these compounds can be placed between nobel-metal electrodes for optically triggered transport experiments. [source]

End-functionalization of semiconducting species with dendronized terpyridine,Ru(II),terpyridine complexes

JOURNAL OF POLYMER SCIENCE (IN TWO SECTIONS), Issue 7 2009
Elefterios K. Pefkianakis
Abstract Semiconducting oligomers and polymers decorated with two or one dendronized tpy-Ru(II)-tpy metallocomplexes are presented. Initially, free terpyridine end-functionalized semiconducting oligomers (distyrylanthracene, quinquephenylene, mono- and trifluorenes) were prepared while in a second approach, atom transfer radical polymerization was employed for the preparation of side-chain oligomeric and polymeric (oxadiazole)s using a terpyridine initiator. These terpyridine-bearing oligomers and polymers were complexated with a Percec-type first-generation (G1) dendronized terpyridine,Ru(III)Cl3 monocomplex, having two dodecyloxy groups. All oligomeric and polymeric metallocomplexes were characterized via NMR spectroscopies for their structural perfection and via UV-Vis and PL spectroscopies for their optical properties. The existence of the organic semiconducting blocks in combination with the terpyridine,Ru(II),terpyridine groups afforded hybrid metallo-semiconducting species presenting the optical features of both their components. Moreover, their thin-film morphologies were investigated through atomic force microscopy, revealing, in some cases, an organization tendency in the nanometer scale. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 1939,1952, 2009 [source]

New Cyclic Olefin Copolymer for the Preparation of Thermally Responsive Luminescent Films

MACROMOLECULAR CHEMISTRY AND PHYSICS, Issue 9 2009
Filippo Donati
Abstract Polymer films with optical properties as indicators to thermal stress were obtained through the controlled dispersion of moderate amounts (,0.1 wt.-%) of the 4,4,-bis(2-benzoxazolyl)stilbene (BBS) dye into a new semicrystalline ethylene-norbornene (E - co - N, N content of 15.3 mol.-%) copolymer characterized by a glass transition temperature (Tg) of about 64,°C. All the pristine films showed optical characteristics coming from noninteracting BBS chromophores. In contrast permanent optical changes were detected after film annealing at a T,,,Tg due to the variation of the BBS supramolecular structure. The easy modulation of the optical features of polymer films by thermal perturbations suggests applications as threshold temperature visual indicators in thermoplastic materials. [source]

Dendrimeric Oligo(phenylenevinylene)-Extended Dithieno[3,2- b:2,,3,- d]phospholes,Synthesis, Self-Organization, and Optical Properties

CHEMISTRY - A EUROPEAN JOURNAL, Issue 16 2009
Carlos Romero-Nieto
Abstract A boost from the branches: Incorporation of the dithieno[3,2- b:2,,3,- d]phosphole system as a core in oligo(phenylenevinylene) dendrimers (an example is shown here) provides materials that exhibit energy-transfer features relaying incoming photons from the dendrons towards the core, which in turn shows enhanced emission intensity. The optical properties and self-assembly features of the dendrimers can be impacted by the terminal groups (-H, -CF3, or -NPh2) employed. To establish this system as a fluorescent core in ,-conjugated dendrimers, a series of oligo(phenylenevinylene) (OPV)-extended dithieno[3,2- b:2,,3,- d]phospholes has been prepared by means of a Wittig,Horner protocol with a dithienophosphole dialdehyde and appropriately functionalized phosphonates. The "zero-generation" model compounds have provided the general accessibility of OPV-functionalized dithienophospholes, and show varying emission colors covering the optical spectrum from green to red. Expansion of the synthetic strategy towards the corresponding first-generation dendrimers has provided materials that show intriguing self-organization features in case of the phenyl-terminated dendrimer, forming large one-dimensional microfibres, as well as desirable energy-transfer processes from the dendrons to the dithienophoshole core resulting in an enhanced emission intensity for the latter. The present study has revealed that the terminal end-groups of the OPV branches have significant impact on the optical features of the OPV dendrimers as a whole. [source]