W E L C O M E
P O R T R A I T
R E S E A R C H
E V E N T S
E D U C A T I O N
..Lectures
....Analog ICs
....Analog-to-Digital Converters
....Communications Electronics
....Monte-Carlo Simulation
....Organic and Nano- structured Optics and Electronics
....Power Semiconductor
....Quantum Transport for Engineers
....Semiconductor Devices
....Semiconductor Simulation
....Solid State Electronics
....VLSI I: Architecture
....VLSI II: Design
....VLSI III: Test
..Student Project Offers
..Student Project Projects
..IIS Chip Gallery
S T U D E N T A R E A
P U B L I C A T I O N S
J O B O F F E R S
C O N T A C T S
I I S I N T E R N A L
Lectures
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Organic and Nanostructured Optics and Electronics

EE/Mech. Eng./Micro Nano 6th and 8th Sem.

This course examines the optical and electronic properties of excitonic materials that can be leveraged to create thin-film lasers, light emitting devices, solar cells, and transistors. The class covers the physics of excitonic materials (organic molecules, polymers, colloidal quantum dots, and nanowires) including energy levels and excited states in molecules and polaronic and excitonic processes in thin films. Laboratory sessions will provide students with experience in fabrication and characterization of devices with organic thin film active layers.

Detailed information for the actual semester

Last change: 20 January 2011    Author:  Vanessa Wood