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Friday, July 31, 2020 | History

7 edition of Organic semiconductors in sensor applications found in the catalog.

Organic semiconductors in sensor applications

  • 204 Want to read
  • 35 Currently reading

Published by Springer in Berlin, New York .
Written in English

    Subjects:
  • Organic semiconductors.,
  • Detectors.

  • Edition Notes

    Includes bibliographical references and index.

    StatementD.A. Bernards, R.M. Owens, G.G. Malliaras, editors.
    SeriesSpringer series in materials science -- v. 107
    ContributionsBernards, D. A., Owens, R. M., Malliaras, George G.
    Classifications
    LC ClassificationsQC611.8.O7 O6987 2008
    The Physical Object
    Paginationxv, 287 p. :
    Number of Pages287
    ID Numbers
    Open LibraryOL22540927M
    ISBN 103540763139
    ISBN 109783540763130
    LC Control Number2007938413

    Bernards D.A., Owens M.R., Malliaras G.G. Organic semiconductors in sensor applications. This book covers this rapidly emerging field by discussing both optical and electrical sensor concepts. Novel transducers based on organic light-emitting diodes and organic thin-film transistors, as well as systems-on-a-chip architectures are presented. The Organic Electronics Association is an international platform to promote applications of organic semiconductors. Conductive polymer products with embedded and improved electromagnetic interference (EMI) and electrostatic discharge (ESD) protection have led to both prototypes and products.

      It discusses semiconductors, graphene, nanocrystalline ZnO-based microfabricated sensors, and nanostructures for volatile organic compounds. It also includes performance parameters for the state of the art of sensors, and the applications of MEMS and nanotechnology in different areas relevant to the sensor by: 3. Semiconductor devices are nothing but electronic components that exploit the electronic properties of semiconductor materials, like as silicon, germanium, and gallium arsenide, as well as organic semiconductors. Semiconductor devices have replaced vacuum tubes in many applications.

      Such devices are widely used for a variety of applications, including clinical analysis, environment monitoring and monitoring of industrial processes. This text provides an up-to-date survey of chemical sensor science and technology, with a good balance between classical aspects and contemporary trends. Organic semiconductor-based transistors are an attractive alternative for vapor sensors, because chemical functional groups that can interact with vapors may be covalently attached to the semiconductors near the channel region where current flows. The attachment of OH groups to a hole-transporting and an electron-transporting molecular semiconductor subunit greatly enhances .


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Organic semiconductors in sensor applications Download PDF EPUB FB2

Organic Semiconductors in Sensor Applications (Springer Series in Materials Science Book ) - Kindle edition by Bernards, D.A., D.A. Bernards, R.M. Owens, G.G. Malliaras.

Download it once and read it on your Kindle device, PC, phones or tablets. Use features like bookmarks, note taking and highlighting while reading Organic Semiconductors in Sensor Applications (Springer Series in Materials Manufacturer: Springer.

Organic semiconductors offer unique characteristics such as tunability of electronic properties via chemical synthesis, compatibility with mechanically flexible substrates, low-cost manufacturing, and facile integration with chemical and biological functionalities.

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Organic Semiconductors in Sensor Applications (Springer Series in Materials Science)Price: $ These characteristics have prompted the application of organic Organic semiconductors in sensor applications book and their devices in physical, chemical, and biological sensors.

This book covers this rapidly emerging field by discussing both optical and electrical sensor concepts. Organic semiconductors offer unique characteristics which have prompted the application of organic semiconductors and their devices in physical, chemical, and biological sensors.

Novel transducers based on organic light-emitting diodes and organic thin-film transistors, as well as systems-on-a-chip architectures are presented. Get this from a library.

Organic semiconductors in sensor applications. [D A Bernards; R M Owens; George G Malliaras;] -- Organic semiconductors offer unique characteristics such as tunability of electronic properties via chemical synthesis, compatibility with mechanically flexible substrates, low-cost manufacturing.

These characteristics have prompted the application of organic semiconductors and their devices in physical, chemical, and biological sensors. This book covers this rapidly emerging field by discussing both optical and electrical sensor concepts.

Novel transducers based on organic light-emitting diodes and organic thin-film transistors, as. Organic semiconductors have become an appealing class of materials, with several applications being developed at R&D and industrial level, supported by a continued research effort.

In fact, not only their optoelectronic properties can be tuned by means of chemical tailoring, but also they can be deposited by means of cost effective printing. These properties make organic semiconductors uniquely qualified to be used as a biological sensor.

In the last decade, much research attention has been focused on cancer stem : Swarna Ganesh, Swarna Ganesh, Krishnan Venkatakrishnan, Krishnan Venkatakrishnan, Bo Tan, Bo Tan.

Organic semiconductors offer unique characteristics which have prompted the application of organic semiconductors and their devices in physical, chemical, and biological sensors.

This book covers this emerging field by discussing both optically- and electrically-based sensor concepts.

Novel Price: $ This book reviews the state of the art in the use of organic materals as physical, chemical and biomedical sensors in a variety of application settings.

Topics covered include organic semiconductors for chemical and physical sensing; conducting polymers in sensor applications; chemically functionalized organic semiconductors for highly selective sensing; composite organic-inorganic sensors. Organic semiconductors combine functional tunability with the low cost per unit area offered by their production in large volumes, using solution-based approaches, but unfortunately organic devices suffer from insufficient performance for most of the applications that are envisioned for these materials.

This book reviews the state of the art in the use of organic materals as physical, chemical and biomedical sensors in a variety of application covered include organic semiconductors for chemical and physical sensing; conducting polymers in sensor applications; chemically.

Chapter 1: Conducting polymers in sensor applications Chapter 2: Electrolyte-gated organic transistors for biosensing applications Chapter 3: Conductive organic materials for DNA biosensors Chapter 4: Organic transistor-based mechanical sensors for artificial skin applications Chapter 5: Smart fabric sensor architectures and technologies Chapter 6: Organic gas sensors and electronic noses.

Organic electronics, such as displays, photovoltaics and electronics circuits and components, offer several advantages over the conventional inorganic-based electronics because they are inexpensive, flexible, unbreakable, optically transparent, lightweight and have low power consumption.

In particular, organic displays exhibit high brightness, fast response time, wide viewing angle, and low Cited by:   The scope of this book, “Handbook of organic materials for optical and (opto)electronic devices: Properties and applications” is to provides background information on fundamental properties of organic semiconductors, describes basic principles on how they function and what are their key opto-electronic features as well as to describes Author: Advanced Science News.

This book features contributions from an international panel of leading researchers in organic electronics and their applications as sensors. It reviews the state-of-the-art in the use of organic electronic materials such as organic semiconductors, conducting polymers, chemically functionalised materials, and composite materials as physical, chemical and biomedical sensors in a variety of.

Magnetic nanoparticles (MNPs) exhibiting superparamagnetic properties might generate large magnetic dipole–dipole interaction with electron spins in organic semiconductors (OSECs). This concept could be considered analogous to the effect of hyperfine interaction (HFI).

In order to investigate this hypothesis. Request PDF | On Jan 1,Syed Abdul Moiz and others published Electrical Characterization of Novel Organic Semiconductor: Materials and Devices for Sensor Technology | Find, read and cite all.

Dear Colleagues, This Special Issue of Electronics is intended to publish peer reviewed scholarly research work on Organic Materials and Organic Sensors that can be applied in Biomedical Applications. Recent research developments show that organic polymer material (conducting polymer and organic semiconductor) properties are competent to those of conventional inorganic semiconductors and.

Chapter 12 Resistive Gas Sensors (Chemiresistors) Certain kinds of conducting material experience a change in their electrical resistance in response to an interaction with gases and vapors. Among these materials, - Selection from Chemical Sensors and Biosensors: Fundamentals and Applications [Book]."Diverse Organic Field Effect Transistor Sensor Responses from Two Functionalized Naphthalenetetracarboxylic Diimides and Copper Phthalocyanine Semiconductors Distinguishable over a wide Analyte Range" Weiguo Huang, Jasmine Sinha, Ming-Ling Yeh, Rachel LeCover, Kalpana Besar, Ana Maria Rule, Patrick N.

Breysse, Howard E. Katz, Adv. Funct.Organic semiconductors have attracted a lot of attention since the discovery of highly doped conductive polymers, due to the potential application in field-effect transistors (OFETs), light-emitting diodes (OLEDs) and photovoltaic cells (OPVs).

Single crystals of organic semiconductors are particularly intriCited by: