2 edition of Organic and Polymeric Materials and Devices--Optical, Electrical and Optoelectronic Properties found in the catalog.
by Materials Research Society
Written in English
|Contributions||G. E. Jabbour (Editor), S. a. Carter (Editor), J. Kido (Editor)|
|The Physical Object|
|Number of Pages||284|
Organic and Polymeric Materials and Devices - Optical, Electrical and Optoelectronic Properties: Volume ISBN ISBN The energy levels of organic materials are largely controlled by the extent of π-conjugation, and the energy gap can be reduced by planarising (reducing torsion between adjacent monomer units) the polymer backbone through chemical design. In addition, the donor–acceptor motif is an established strategy for producing small energy-gaps (hence.
In the near future, organic semiconductors may be used in a variety of products, including flat-screen TVs, e-book readers, and third-generation organic photovoltaics applications, to name just a few. While organic electronics has received increased attention in scientific journals, those working in this burgeoning field require more in-depth coverage of the subject. New organic and polymeric materials for thin film optical devices. Conference Proceedings at Antec ' Plastics on My Mind, Vols I-3 - Vol I; Processing, Vol Ii; Special Areas, Vol Iii; Materials. .
Organic Transistors ADVANCED MATERIALS FOR ORGANIC ELECTRONICS High-Performance Pentacene Transistors Engineered Pentacenes Organic Semiconductors Based on Polythiophene and Indolo[3,2-b]carbazole Electrical and Environmental Stability of Polymer Thin-film Transistors Gate Dielectrics Advanced Flexible Polymeric Substrates. Organic Conjugated Materials for Optoelectronic and Applications.- Nonlinear Optics of Conjugated Polymers: Progress in Science and Prospects for Technology.- Transition Dipoles of Polyacetylene Oligomers.- Linear Optical Properties of a Series of Polyacetylene Oligomers.- Novel Linear and Nonlinear Optical Effects in Polydiacetylenes
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Organic and polymeric materials and devices-optical, electrical and optoelectronic properties, vol. [Book Review] Article (PDF Available) in IEEE Electrical Insulation Magazine 19(3) - Get this from a library. Organic and polymeric materials and devices--optical, electrical, and optoelectronic properties: symposium held April, San Francisco, California, U.S.A.
[Ghassan E Jabbour; Materials Research Society. Fall Meeting;]. Organic materials are attractive due to their low cost, the possibility of their deposition from solution onto large-area substrates, and the ability to tailor their properties. The Handbook of organic materials for optical and (opto)electronic devices provides an overview of the properties of organic optoelectronic and nonlinear optical.
This book covers the combined subjects of organic electronic and optoelectronic materials/devices. It is designed for classroom instruction at the senior college level.
Highlighting emerging organic and polymeric optoelectronic materials and devices, it presents the fundamentals, principle mechanisms, representative examples, and key by: Optoelectronic devices based on organic small molecule and polymeric semiconductors are important for the development of our understanding of how charge and/or light interact with molecular solids as well as enabling new exciting products.
The scope of this book, “Handbook of organic materials for optical and (opto)electronic devices. Organic (opto)electronic materials have received considerable attention due to their applications in thin-film-transistors, light-emitting diodes, solar cells, sensors, photorefractive devices, and many others.
The technological promises include low cost of these materials and the possibility of their room-temperature deposition from solution on large-area and/or flexible substrates. The. The molecular structures, synthesis methods, physicochemical and optoelectronic properties of the organic optoelectronic materials are also introduced and described in detail.
The authors also elucidate the structures and working mechanisms of organic optoelectronic devices and outline fundamental scientific problems and future research directions. Reflecting rapid growth in research and development on organic/polymeric electronic and photonic materials and devices, Introduction to Organic Electronic and Optoelectronic Materials and Devices provides comprehensive coverage of the state-of-the-art in an accessible book presents fundamentals, principles, and mechanisms complem.
Materials Research Society: Pages: Number of pages: 5: ISBN (Print) Publication status: Published - Event: Symposium on Organic and Polymeric Materials and Devices-Optical, Electrical and Optoelectronic Properties held at the MRS Spring Meeting - Canada Duration: 1-Apr → 5-Apr Organic electronics is a field of materials science concerning the design, synthesis, characterization, and application of organic molecules or polymers that show desirable electronic properties such as conventional inorganic conductors and semiconductors, organic electronic materials are constructed from organic (carbon-based) molecules or polymers using synthetic.
The monograph focuses on the optoelectronic behavior of organic solids and their application in new optoelectronic devices. It covers organic field-effect and organic electroluminescent materials and devices, organic photonics, materials and devices, as well as organic solids in photo absorption and energy conversion.
Introduction to Organic Electronic and Optoelectronic Materials and Devices (Optical Science and Engineering Book ) - Kindle edition by Sun, Sam-Shajing, Dalton, Larry R.
Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Introduction to Organic Electronic and Optoelectronic Materials and Reviews: 3.
The properties of materials based both on small molecules and on conjugated polymers are considered, and their applications in organic solar cells, photodetectors, and photorefractive devices are. Stevens, in Comprehensive Heterocyclic Chemistry, Introduction.
The field of organic conductors has been extensively reviewed 〈BMI, 78ANY25, BMI, 78MI, 79ACR79〉 and no attempt is made here to describe the synthesis and properties of known materials. Molecular conductors of the doped polymer type have been excluded since these are neither intrinsic. MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGSVOLUME Organic and Polymeric Materials and Devices— Optical, Electrical and Optoelectronic Properties Symposium held April, San Francisco, California, U.S.A.
EDITORS: Ghassan E. Jabbour The University of Arizona Tucson, Arizona, U.S.A. Sue Anne Carter. Materials Research Society: Pages: Number of pages: 8: Volume: ISBN (Print) Publication status: Published - Event: Symposium on Organic and Polymeric Materials and Devices-Optical, Electrical and Optoelectronic Properties held at the MRS Spring Meeting - Canada Duration: 1-Apr → 5-Apr New Materials in Optoelectronics 1 Organic-Organic Semiconductor Interfaces for Molecular Electronic Devices 3 Ji-Seon Kim and Craig Murphy A Study of Adhesion of Silicon Dioxide on Polymeric Substrates for Optoelectronic Applications 23 E.
Amendola, A. Cammarano and D. Acierno Organic Semiconductor Based Heterostructures. 3 hours ago Metal halide perovskite materials have been widely studied recently due to their excellent optoelectronic properties.
Among these materials, organic-inorganic hybrid perovskites have attracted much attention because of their relatively soft framework, which makes them more suitable for nonlinear optical (NLO) applications. However, there is rare physical mechanism study on the coexistence of.
To develop efficient and competitive modern electronics from semiconducting (organic, inorganic or hybrid) materials for energy conversion and storage, it is essential to understand the relationships between molecular architecture, supramolecular organization, microscopic morphologies and optoelectronic properties.
Introduction. Optoelectronic devices based on organic semiconductors, including conjugated small molecules and polymers, have attracted tremendous academic and industrial attention, due to the many technological advantages of organic materials, such as low material cost, great diversity, tunable material properties, and compatibility with flexible substrates and low temperature/high.
Moreover, as an emerging field in the 2D‐materials family, assembly of organic nanostructures into 2D forms offers the advantages of molecular diversity, intrinsic flexibility, ease of processing, light weight, and so on, providing an exciting prospect for optoelectronic applications.Reflecting the rapid growth in research and development on organic/polymeric electronic and photonic materials and devices over the last few decades, "Introduction to Organic Electronic and Optoelectronic Materials and Devices" provides comprehensive coverage of the state-of-the-art in an accessible format.Written by internationally recognized experts in the field with academic as well as industrial experience, this book concisely yet systematically covers all aspects of the topic.
The monograph focuses on the optoelectronic behavior of organic solids and their application in new optoelectronic devices. It covers organic field-effect and organic electroluminescent materials and devices, organic.