This document provides an overview of the syllabus for the course "Organic Electronics Devices and Circuits" with subject code MEC-167. The course is part of the M.Tech program in Digital Systems and covers 4 credits. The syllabus is divided into 4 units that cover topics like organic materials and device physics, modeling of organic thin film transistors, organic light emitting diodes and organic solar cells, and applications of organic transistors including digital circuits and memory. References for the course include books and journals on organic electronics.
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Organic Electronics Devices Circuits OEDC MTech Digital
1. Organic Electronics Devices and Circuits (OEDC)
Subject Code:MEC-167
M.Tech. (Digital System)
Unit-1 L1 Syllabus Discussion
October 2021
Dr. Brijesh Kumar
Professor
Department of Electronics and communication Engineering
MMMUT Gorakhpur (UP) India
Mobile:+91-9235500552, e-mail: bkece@mmmut.ac.in
Lecture-1
2. Unit-1 L2
Deep Syllabus and Experiment Discussion
Organic Electronics Devices and Circuits (OEDC)
Subject Code:MEC-167
M.Tech (Digital System)
S.
No.
Course
Code
Name the Course Prerequisite
Subject
L-T-P Credits
1. MEC-167 Organic Electronic
Devices and
Circuits
3-1-0 4
3. Introduction; Organic Materials: Conducting
Polymers and Small molecules, Organic
Semiconductors: p-type and n-type semiconductors,
Source, Drain and Gate Electrodes, Gate Dielectrics,
Substrate; Concept of Charge Transport in Organic
Semiconductors; Energy Band Diagram; Comparison
between Organic and Inorganic Semiconductors
including the Merits, Demerits and Limitations.
Unit-I
Analysis Organic Materials and Device Physics:
4. Organic Thin Film Transistors (OTFTs) and
Modeling of Organic Devices:
Introduction; Operating Principle; Classification of
Various OTFT Structures; Output and Transfer
Characteristics; Performance Parameters; Extraction
of Performance Parameters, Impact of Structural
Parameters on Behavior of OTFT; Merits, Demerits
and Limitations of Organic Devices;
Unit-II
5. Effect of Self Assemble Monolayer (SAM); Different
OTFT Models; Stability Issues, Future Scope.
Various Defects and Effects in Organic Devices;
Modeling of OTFT Structures; Concept of Contact
Resistance: Origin of Contact Resistance, Contact
Resistance Extraction, Analysis and Performance
Parameters Comparison of OTFT structures; Single
Gate (SG) and Dual Gate (DG) OTFT Performance
Comparison.
Unit-II Cont…
6. Organic Light Emitting Diodes (OLEDs) and
Organic Solar Cells:
OLED: Introduction; Organic Materials for OLEDs;
Classification of OLEDs, Operating Principle; Output
and Transfer Characteristics; Analysis of OLED
Performance: Optical, Electrical and Thermal
properties, Merits and Demerits; Stability Issues;
OLEDs as display Applications.
Unit-III
7. Organic Light Emitting Diodes (OLEDs)
and Organic Solar Cells:
Organic Solar Cell: Introduction; Materials for
organic Solar Cells; Operating Principle;
Characteristics, Applications and Future
Scope.
Unit-III Cont…
8. OTFT Applications:
Organic Digital Circuits: All p-Type, Hybrid
Complementary Inverters, Fully Organic
Complementary Inverter Circuits and Their
Comparison; Logic Circuit Implementation.
Organic Memory: Organic Static Random Access
Memory (OSRAM) and other Important Organic
Memory Designs.
Unit-IV
10. 10
❖ 4. Flora Li, Arokia Nathan, Yiliang Wu, Beng S. Ong, Organic Thin
Film Transistor Integration: A Hybrid Approach, Wiley-VCH, Germany;
1st Ed., 2011
❖ 5. Wolfgang Brutting, Physics of Organic Semiconductors, Wiley-VCH
Verlag Gmbh & Co. KGaA, Germany, 2005.
❖ 6. B. K. Kaushik, B. Kumar, P. Mittal and S. Prajapati, “Organic Thin-
Film Transistor Applications: Materials to Circuits, CRC Press, USA,
Published on August 22, 2016 Reference - 351 Pages - 60 Color & 171
B/W, ISBN 9781498736534- CAT# K26491.
❖ 7. IEEE Transaction on Electronic Devices (TED) and IEEE Electronic
Device Letters (EDL) and other reputed journals related to subjects.
❖ 8. Organic Electronic Devices and Circuits based M.Tech and PhD
Theses.
11. Other Source of Materials for Digital Electronics and Circuits:
❖ Ronald J. Tocci, Neal S. Widmer and Gregory L. Moss, “Digital
Systems: Principles and Applications”, 10th Edition, Pearson
education, 2009.
❖ R. P. Jain, Modern Digital Electronics, 4th Edition, Tata McGraw
Hill Education Pvt. Ltd., 2009.
❖ M. Morris Mano and Michael D. Ciletti, Digital Design, 4th
Edition, Pearson Education (Prentice Hall).
❖ Charles H. Roth, Jr., Fundamentals of Logic Design, 4th Ed.,
Jaico Pub. 2010.
❖ PPTs and Video Lecture (NPTEL and many more).
❖ Digital Electronics and Circuits based various Recent Animation
working circuits.