1 edition of Organic field-effect transistors VII and organic semiconductors in sensors and bioelectronics found in the catalog.
Organic field-effect transistors VII and organic semiconductors in sensors and bioelectronics
Includes bibliographical references and index.
|Other titles||Organic semiconductors in sensors and bioelectronics|
|Statement||Zhenan Bao ... [et al.], editors ; sponsored by SPIE ; cosponsored by Air Products and Chemicals, Inc. (United States) ... [et al.].|
|Series||Proceedings of SPIE -- v. 7054, Proceedings of SPIE--the International Society for Optical Engineering -- v. 7054.|
|Contributions||SPIE (Society), Air Products and Chemicals, inc|
|LC Classifications||TK7871.95 .O733 2008|
|The Physical Object|
|Pagination||1 v. (various pagings) :|
|LC Control Number||2010287142|
This article reviews the recent literature concerning biosensing with such transistors, gives clues to understanding the basic principles under which electrolyte-gated organic field-effect transistors work, and details the transduction mechanisms that were investigated to convert a receptor/target association into a change in drain current. Organic Field-Effect Transistors XII; and Organic Semiconduc Paperback – January 1, See all formats and editions Hide other formats and editions PriceFormat: Paperback.
Organic semiconductors (OSCs), based on pi-conjugated molecules and macromolecules, are revolutionising the electronics industry. The most topical and potentially lucrative applications to date include organic light emitting diode (OLED) displays and lighting, organic photovoltaics (OPVs) and organic field effect transistors (OFETs). I really enjoyed this book and have already told so many people about it! Download Now. Heterojunction Bipolar Transistors for Circuit Design: Organic Field-effect Transistors VII and Organic Semiconductors in Sensors and Bioelectronics (Proceedings of Spie).
Provides a comprehensive overview of the materials, mechanisms, characterization techniques, and structure property relationships of organic electronic and photonic materials Reviews key applications, including organic solar cells, light-emitting diodes electrochemical cells, sensors, transistors, bioelectronics, and memory devices New content. Organic Field-Effect Transistors XIII; and Organic Semiconductors in Sensors and Bioelectronics VII, edited by henan Bao, Iain McCulloch, Ruth Shinar, Ioannis ymissis, Proc. of SPIE Vol. , Proc. of SPIE Vol. X
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Organic electrochemical transistors (OECTs) have been widely used as transducers in electrophysiology and other biosensing applications. Their identifying characteristic is a transconductance that increases with channel thickness, and this provides a facile mechanism to.
Organic Field-Effect Transistors VII and Organic Semiconductors in Sensors and Bioelectronics Editor(s): Zhenan Bao ; Iain McCulloch ; Ruth Shinar For the purchase of this volume in printed format, please visit The remarkable development of organic thin film transistors (OTFTs) has led to their emerging use in active matrix flat-panel displays, radio frequency identification cards, and sensors.
Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies, synthetic methodology, materials 5/5(2). Organic Field-Effect Transistors XIII; and Organic Semiconductors in Sensors and Bioelectronics VII Editor(s): Zhenan Bao ; Iain McCulloch ; Ruth Shinar ; Ioannis Kymissis For the purchase of this volume in printed format, please visit Field-effect Transistors.
Organic field effect transistors (OFETs) emerged in the late s (Burroughes et al.Horowitz et al. ) almost simultaneously with OLEDs.
Owing to their limited performance, OFETs are far from competing with silicon-based microelectronics. Organic sensors and bioelectronics VIII. Organic sensors and bioelectronics 8. Organic sensors and bioelectronics eight. Organic semiconductors in sensors and bioelectronics VII.
Organic field-effect transistors 14 Organic field-effect transistors fourteen: Responsibility. Organic Field-Effect Transistors VII and Organic Semiconductors in Sensors and Bioelectronics August Proceedings of SPIE - The International Society for Optical Engineering Ruth Shinar.
Organic field-effect transistors VII and organic semiconductors in sensors and bioelectronics. Organic semiconductors in sensors and bioelectronics 2 Organic semiconductors in sensors and bioelectronics two: Responsibility: Ruth Shinar, George G.
Malliaras, editors ; sponsored and published by SPIE. He is known for his studies of organic field-effect transistors, growth of organic semiconductors and organic electrochemical transistors. His activities focus on organic bioelectronics and carbon based electrodes in organic electronic devices.
8 hours ago The soft and permeable nature of the organic semiconductor (OS) layer enables ions in the electrolyte to penetrate the bulk of the transistor channel upon application of an electric field. This leads to an electrochemical accumulation (or depletion) of charges in the semiconducting material and, thus, to a modulation of the transistor channel.
SPIE Digital Library Proceedings. Proc. SPIEOrganic Field-Effect Transistors XIII; and Organic Semiconductors in Sensors and Bioelectronics VII, E (6 October ); doi: / Organic Field Effect Transistors.
OFETs are also an emerging, real-time biomolecule sensor platform with the ability to detect a variety of biomolecules, including deoxyribonucleic acid (DNA), glucose, and various proteins and enzymes (Hammock et al., ; From: Handbook of Organic Materials for Electronic and Photonic Devices (Second Edition.
Organic Field-Effect Transistors book. Organic Field-Effect Transistors. and sensors. Exploring one class of OTFTs, Organic Field-Effect Transistors provides a comprehensive, multidisciplinary survey of the present theory, charge transport studies, synthetic methodology, materials characterization, and current applications of organic field.
BT - Organic Field-Effect Transistors VII and Organic Semiconductors in Sensors and Bioelectronics. T2 - Organic Field-Effect Transistors VII and Organic Semiconductors in Sensors and Bioelectronics.
Y2 - 10 August through 12 August ER. The thin‐film structures of chemical sensors based on conventional organic field‐effect transistors (OFETs) can limit the sensitivity of the devices toward chemical vapors, because charge carriers in OFETs are usually concentrated within a few molecular layers at the bottom of the organic semiconductor (OSC) film near the dielectric/semiconductor interface.
Organic ion-sensitive field-effect transistors assembled on flexible plastic films have been fabricated. A thin Mylar™ foil acts both as substrate and gate dielectric. Organic Electronics is a novel field of electronics that has gained an incredible attention over the past few decades.
New materials, device architectures and applications have been continuously introduced by the academic and also industrial communities, and novel topics have raised strong interest in such communities, as molecular doping, thermoelectrics, bioelectronics and many others. Organic Bioelectronic Transistors: From Fundamental Investigation of Bio-Interfaces to Highly Performing Biosensors Eleonora Macchia, Rosaria A.
Picca, Angelo Tricase, Cinzia Di Franco, Antonia Mallardi, Nicola Cioffi, Gaetano Scamarcio, Gerardo Palazzo, Luisa Torsi Interfacing biomaterials to electronic devices is one of most challenging research field that has relevance for both fundamental. This review highlights recent major progress in the development of organic semiconductors as electron transport n-channel materials in organic field effect transistors (OFETs).
Three types of materials are discussed: (1) small molecules, (2) polymers, and (3) n-doped small molecules and polymers. Much effort Recent Review Articles. Printable organic thin-film transistors have enabled flexible low-cost electronics, which has the potential for a lot of emerging electronic applications.
Despite the excellent dark performance of advanced all-inkjet printed organic thin-film transistors, their photoresponse is less explored and needs to be investigated, especially photoresponse to visible lights that human beings can see and.
The book presents concrete examples and shows that there are lots of sensing targets still remaining to be handled. Organic materials offer high sensitivity, flexibility and biocompatibility, and can be prepared by novel fabrication methods such as printing and coating at low cost.
Part 1: OFET-based sensors.Organic Field-effect Transistors VII and Organic Semiconductors in Sensors and Bioelectronics (Proceedings of Spie) Author: Zhenan Bao, Iain McCulloch, Ruth Shinar. Organic field-effect transistors have received much attention in the area of low cost, large area, flexible, and printable electronic devices.
Lots of efforts have been devoted to achieve comparable device performance with high charge carrier mobility and good air stability. Meanwhile, in order to reduce the fabrication costs, simple fabrication conditions such as the printing techniques .