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Using molecules and polymers to create the next generation of electronic devices.
Organic electronic devices are quickly making their way into the commercial world, with innovative thin mobile devices, high-resolution displays, and photovoltaic cells. The future holds even greater potential for this technology, with an entirely new generation of ultra low-cost, lightweight and even flexible electronic devices, which will perform functions traditionally accomplished with much more expensive components based on conventional semiconductor materials, such as silicon.
Learn more about this highly promising technology, which is based on small molecules and polymers, and how these materials can be implemented successfully in established (e.g., organic light-emitting devices (OLEDs), organic photovoltaic (OPV) devices) and emerging (e.g., thermoelectric (TE) generators) organic electronic modules.
In this course, you will gain the ability to tie molecular transport phenomena with macroscopic device response such that you will be well-prepared to analyze, troubleshoot, and design the next generation of organic electronic materials and devices.
This course has short lectures with quizzes, homework, and exams.
This course is the latest nanoHUB-U project in a series offered is jointly funded by Purdue University and the NSF with the goal of transcending disciplines through short courses accessible to students in any branch of science or engineering.
This course is suited for undergraduates with two semesters of general chemistry and two semesters of general physics. Familiarity with solid-state physics or elementary circuits is recommended but not required.
