Organic Thin-Film Transistor Applications: Materials to Circuits, 1st Edition (e-Book) book cover

Organic Thin-Film Transistor Applications

Materials to Circuits, 1st Edition

By Brajesh Kumar Kaushik, Brijesh Kumar, Sanjay Prajapati, Poornima Mittal

CRC Press

351 pages | 60 Color Illus. | 171 B/W Illus.

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pub: 2016-08-22
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Description

Text provides information about advanced OTFT (Organic thin film transistor) structures, their modeling and extraction of performance parameters, materials of individual layers, their molecular structures, basics of pi-conjugated semiconducting materials and their properties, OTFT charge transport phenomena and fabrication techniques. It includes applications of OTFTs such as single and dual gate OTFT based inverter circuits along with bootstrap techniques, SRAM cell designs based on different material and circuit configurations, light emitting diodes (LEDs). Besides this, application of dual gate OTFT in the logic gate, shift register, Flip-Flop, counter circuits will be included as well.

Reviews

"The book covers both the fundamental aspects of the operating principles of organic electronic devices, as well as their applications in digital circuit design. The book is written in an attractive textbook format with problems at the end of each chapter making the book suitable as a textbook in both undergraduate and graduate level courses. This book will be an excellent addition to university library collections."

— Christine Luscombe, University of Washington, USA

Table of Contents

1. Introduction. Introduction. Organic Semiconductor Materials for Organic Devices. Organic Thin-Film Transistors (OTFTs). Future Perspectives. Scope of the Book. 2. OTFT Parameters, Structures, Models, Materials, Fabrication, and Applications: A Review. Introduction. Parameters of Organic Thin-Film Transistors (OTFTs). OTFT Structures. OTFT Models. Charge Transport in Organic Semiconductors. Materials. Fabrication. Performance-Influencing Factors of OTFTs. Concluding Remarks. 3. Analytical Modeling and Parameter Extraction of Top and Bottom Contact Structures of Organic Thin Film Transistors. Introduction. Device Structure and Contact Effects. Analytical Models of Organic Thin-Film Transistors (OTFTs). Differential Method for Parameter Extraction. Results and Discussion. Concluding Remarks. 4. Impact of Semiconductor and Dielectric Thicknesses on the Performance of Top and Bottom Contact Organic Thin-Film Transistors. Introduction. Process/Device Simulation Tool and Simulation Conditions. Electrical Characteristics and Parameters of Top Contact and Bottom Contact Organic Thin-Film Transistors. Impact of tosc and tox on Performance Parameters of Top Contact and Bottom Contact Organic Thin-Film Transistors. Contact Resistance Extraction. Concluding Remarks. 5. Organic Light-Emitting Transistors. Introduction. Working Principle. Materials for Organic Light-Emitting Transistor (OLET) Layers. Classification of OLETs. Standard Terms and Properties of Light Emission in Organic Semiconductors. Comparison of Organic Light-Emitting Transistors with Conventional Organic Light-Emitting Diodes. 6. Organic Device Applications. Static and Dynamic Analysis of Organic All-p, Organic Complementary, and Hybrid Complementary Inverter Circuits. Introduction. Analysis of Different p- and n-Type Devices. Analysis of Inverter Circuits with Different TFT Combinations. Results and Discussion. Concluding Remarks. 7. Robust Organic Inverters and NAND/NOR Logic Circuits Based on Single and Dual Gate OTFTs. Introduction. Single and Dual Gate Device Analysis. Diode Load Logic (DLL) and Zero-Vgs Load Logic (ZVLL) Configurations. Organic Inverter Circuits. Improvement in Performance of Organic Dual Gate Inverters. Organic NAND Logic Gate. Organic NOR Logic Gate. Concluding Remarks. 8. Digital Circuit Designs Based on Single and Dual Gate Organic Thin-Film Transistors Using Diode Load Logic and Zero-Vgs Load Logic Configurations. Introduction. Combinational Circuit Designs. Clocked Sequential Circuit Designs Based on SG and DG OTFTs. Concluding Remarks. 9. Static Random Access Memory Cell Design Based on All-p Organic, Hybrid, and Complementary Organic Thin-Film Transistors. Introduction. Static Random Access Memory (SRAM) Cell Configuration. Performance of SRAM Cell with Different Thin-Film Transistor Combinations. Complementary SRAM Cell with p-Type Access Transistors. Concluding Remarks. 10. Applications and Future Perspectives. Organic Device Applications. Future Perspectives. 11. Appendix A: Simulation Examples. 12. Index.

Subject Categories

BISAC Subject Codes/Headings:
TEC008010
TECHNOLOGY & ENGINEERING / Electronics / Circuits / General
TEC008070
TECHNOLOGY & ENGINEERING / Electronics / Microelectronics
TEC021000
TECHNOLOGY & ENGINEERING / Material Science