Event Title
A Study of Polaron and Exciton Transport in Organic Semi-Conductors
Co-investigators
Nenian Charles
Faculty Mentor
Pedro Derosa
Location
Memorial Gym
Start Date
20-4-2012 2:30 PM
End Date
20-4-2012 3:30 PM
Description
The popularity of organic semiconductors for use in microelectronics has grown in both academia and industry. Several models have been developed within a variety of theoretical frameworks. We describe here our progress towards an integrated model able to account for charge transport in conductive polymers under different regimes, including polaron-free transport, polaron transport and exciton transport in realistic geometrical arrangements. In the first step, polaron transport based on the Marcus formalism. The results are compared with the (modified) time-of-flight experiment (Tofet) algorithm developed by Kwiatkowski et al., and experimental results.
A Study of Polaron and Exciton Transport in Organic Semi-Conductors
Memorial Gym
The popularity of organic semiconductors for use in microelectronics has grown in both academia and industry. Several models have been developed within a variety of theoretical frameworks. We describe here our progress towards an integrated model able to account for charge transport in conductive polymers under different regimes, including polaron-free transport, polaron transport and exciton transport in realistic geometrical arrangements. In the first step, polaron transport based on the Marcus formalism. The results are compared with the (modified) time-of-flight experiment (Tofet) algorithm developed by Kwiatkowski et al., and experimental results.
Comments
Poster presentation