TY  - BOOK
AU  - Shinar,Ruth
AU  - Shinar,Joseph
TI  - Organic electronics in sensors and biotechnology
T2  - Biophotonics series
SN  - 9780071596756 (alk. paper)
AV  - TK7872.D48 S55 2009
U1  - 681.2 22
PY  - 2009///]
CY  - New York
PB  - McGraw-Hill
KW  - Detectors
KW  - Materials
KW  - Organic semiconductors
KW  - Biotechnology
KW  - Equipment and supplies
KW  - Organic electronics
KW  - Biosensors
N1  - Includes bibliographical references and index; Ch 1. Scaling Effects in Organic Transistors and Transistor-based Chemical Sensors Ch 2. Organic Thin-film Transistors for Inorganic Substance MonitoringCh 3. Strain and Pressure Sensors Based on Organic Field Effect TransistorsCh 4. Integrated Pyroelectric SensorsPart I. Electrical Semiconductor and Dielectric AnalysisPart II. Integrated Pyroelectric Sensors Ch 5. Progress and Challenges in Organic Light Emitting-Diode (OLED)-based Chemical and Biological Sensors Ch 6. An Introduction to Organic Photodetectors Ch 7. Organic Semiconductor Lasers as Integrated Light Sources for Optical SensorsCh 8. Organic Electronics in Memories and Sensing Applications Ch 9. Luminescent Conjugated Polymers for Staining and Characterization of Amyloid DepositsCh 10. Electrophoretically Deposited Polymers for Organic Electronics Ch 11. Electrochemical Surface Switches and Electronic Ion Pumps Based on Conjugated Polymers
N2  - The latest in organic electronics-based sensing and biotechnology
Develop high-performance, field-deployable organic semiconductor-based biological, chemical, and physical sensor arrays using the comprehensive information contained in this definitive volume. Organic Electronics in Sensors and Biotechnology presents state-of-the-art technology alongside real-world applications and ongoing R & D.
Learn about light, temperature, and pressure monitors, integrated flexible pyroelectric sensors, sensing of organic and inorganic compounds, and design of compact photoluminescent sensors. You will also get full details on organic lasers, organic electronics in memory elements, disease and pathogen detection, and conjugated polymers for advancing cellular biology.

Monitor organic and inorganic compounds with OFETs
Characterize organic materials using impedance spectroscopy
Work with organic LEDs, photodetectors, and photovoltaic cells
Form flexible pyroelectric sensors integrated with OFETs
Build PL-based chemical and biological sensing modules and arrays
Design organic semiconductor lasers and memory elements
Use luminescent conjugated polymers as optical biosensors
Deploy polymer-based switches and ion pumps at the microfluidic level; his multi-disciplinary book provides comprehensive information about the growing field of organic electronics and is the first to detail their use in sensing applications
UR  - http://repository.fue.edu.eg/xmlui/handle/123456789/4328
ER  -