| Redox Systems Under Nano-Space Control 2006 Edition Contributor(s): Hirao, Toshikazu (Editor) |
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ISBN: 3540295798 ISBN-13: 9783540295792 Publisher: Springer OUR PRICE: $161.49 Product Type: Hardcover - Other Formats Published: April 2006 Annotation: The generation of novel redox systems under nano-space control is one of the most exciting fields in present organic, inorganic, and supramolecular chemistry. The authors have drawn together the newest information on the construction of such novel redox systems using nano-space control of complexation or molecular chain-induced spaces and metal- or self-assembled spaces through combining techniques in coordination, supramolecular, and bio-inspired chemistry. Such design on the nano level produces hybrid conjugated systems composed of transition and synthetic metals, metallohosts, redox-active self-assembled monolayers of helical peptides, DNA-directed metal arrays, photoactive antibody systems, chiral rotaxanes, and redox-active imprinted polymers. In the future, these systems will be the basis for novel selective electron-transfer reactions as well as new functional materials and catalysts. |
| Additional Information |
| BISAC Categories: - Science | Chemistry - Physical & Theoretical - Technology & Engineering | Nanotechnology & Mems - Science | Chemistry - Inorganic |
| Dewey: 541.393 |
| LCCN: 2005937596 |
| Physical Information: 0.75" H x 6.14" W x 9.21" (1.36 lbs) 292 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: 3.1.1 ?-Conjugated Materials ?-conjugated polymers (CPs) and oligomers are materials with an extended ?-system along the backbone. The materials possess many remarkable prop- ties, including high charge carrier mobilities, electrical conductivities (doped), electrochromism, and electroluminescence 1]. These properties have been taken advantage of in exploration of potential applications including in ch- ical sensors, light-emitting devices, and ?eld-effect transistors. Many efforts have been devoted to synthesizing new conjugated polymers and oligomers in an effort to increase their processibility, optimize the desirable properties, and explore new properties. In Fig. 3.1 are shown examples of some of the CPs that have been prepared and studied. Coupling ?-conjugated materials to metal complexes gives hybrid mate- als in which the properties of the metal complex may be coupled to those of the conjugated backbone 2]. For example, these materials could be used in energy-harvesting devices such as solar cells or polymer-based light-emitting devices, wherehighchargecarrier mobilities of theconjugatedmaterialmay be combined with either the light-absorbing or emitting metal groups, giving improved device performance 3, 4]. In addition to an electronic role, metal complexes may also be used to geometrically orient ?-conjugated materials in speci?c three-dimensional arrangments in the solid state. Careful conside- tion of theelectronicinteractionsand excitedstatesisnecessary for thedesign of functional materials of this type. |