Organic Semiconductors for Microelectronics & Displays Applications

This module will offer an introduction to organic semiconductors and their application in thin-film transistors (TFTs), memory devices and organic light-emitting diodes (OLEDs) for lighting and display applications.
In the first part of the module the band theory of solids (inorganic and organics) will guide the way to the energy band diagram of metal-semiconductor (MS) contacts as a fundamental constituent of electronic devices. By means of the metal-oxide-semiconductor (MOS) capacitor concepts such as accumulation and depletion of charge carriers in organic semiconductors will be discussed and contrasted to their inorganic counterparts. This leads over to the structure and operating principle of field-effect transistors, their device architectures, considerations on switching speeds and scaling. As part of their applications, the role of organic TFTs in (unipolar and complementary) logic circuits, displays, and memories will be introduced. The module will then look at general properties and requirements of memories such as writing/reading speeds, retention time, endurance, and scalability/integration. Different memory concepts (e.g. capacitive, resistive, floating-gate) are introduced.
In the second part of the module the field of optical displays will be introduced, covering the technologies currently in use and those expected to feature in the next generation of display technologies with emphasis on OLED-based displays. The module will offer a short introduction the different kinds of optical displays available, and will briefly discuss the current driving forces governing market trends. The lectures will discuss the way in which the human eye operates and how it affects the way in which we perceive optical displays. The course will then move on to cover all of the physical and technical properties associated with understanding and characterizing optical displays, such as luminous power, luminous efficiencies and understanding the 1931 CIE colour space standard etc. The lectures will cover the various technical approaches applied in the manufacture of different optical displays with emphasis on OLEDs and their application in future display technologies.

Course Contents:

  1. Energy band structure and metal-semiconductor contacts
  2. Metal-insulator-semiconductor capacitor
  3. The field effect transistor
  4. Organic transistors in microelectronics
  5. Organic memory devices
  6. Introduction to optical displays
  7. Colourimetry and colour generation in optical displays
  8. Non-emissive displays
  9. Emissive displays
  10. Organic light emitting diode (OLED) in displays

Dr. Thomas Anthopoulos is a Professor of Experimental Physics in the Department of Physics and The Centre for Plastic Electronics, Imperial College London. He received his B.Eng., and Ph.D., from Staffordshire University in UK. He then moved to University of St. Andrews where he worked on organic light-emitting diodes. In 2003 he joined Philips Research Laboratories in The Netherlands to work on organic semiconductors for use in opto/electronic devices and integrated circuits. In 2005 he was awarded an EPSRC Advanced Fellowship and in 2007 a RCUK Fellowship both hosted in the Department of Physics, Imperial College London. His current research interest is focused on the physics of novel organics, inorganics and hybrid materials and devices.

His current research projects include:

  • Novel inorganic transparent semiconductors
  • High-mobility organic semiconductors & devices. 
  • Nanoscale opto/electronic devices & systems
  • Transparent photo-transistors for invisible electronics
  • Charge carrier transport in semiconductors & devices
  • Novel nano-lithography methods for plastic nano-electronics
  • Novel device concepts for energy harvesting & generation

Before Registration, read the following instructions carefully:

  1. Scan the Registration form (Available in the Brochure) in PDF format. (not more than 4 MB).
  2. Scan the DD in PDF format. (not more than 4 MB).
  3. Use valid and frequently checking E-mail ID. Because the acceptance notification and further communication will be through E-mail.

Information

Teaching Faculty

Prof. Thomas D. Anthopoulos,
Department of Physics
Imperial College London, UK.
Email: t.anthopoulos@ic.ac.uk

Important Dates

Registration Starts 16.05.2016
Registration Closes: 30.05.2016
Event Duration: 30.05.2016 to 03.06.2016

Contact

Prof. G. Umesh
Department of Physics,
National Institute of Technology Karnataka - Surathkal
Post Srinivasnagar,
Mangalore – 575025,
Karnataka, INDIA
Phone: +91 824 2473276
Mobile: +91 9901184376
Email:
umesh52@gmail.com
---------------------------------------
Dr. M.N. Satyanarayan
Department of Physics,
National Institute of Technology Karnataka - Surathkal
Post Srinivasnagar,
Mangalore – 575025,
Karnataka, INDIA
Phone: +91-824-2473282
Mobile: 91-9686146138
Email:
mn.satyanarayan@gmail.com
------------------------------------------ Point of Contact
K. Achyutha,
Research Scholar (+91-8722553256)
Email: k.achyutha@gmail.com
Raveendra Kiran,
Research Scholar (+91-9071987538)
Email: kiran.phy85@nitk.ac.in
Optional
 

Contact us

Dr. M.N. Satyanarayan, Associate Professor and Head
Department of Physics, NITK, Surathkal
P. O. Srinivasnagar, Mangalore - 575 025
Karnataka, India.

  • Hot line: +91-0824-2473052

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