EA Spectroscopy as a series of sensors: Investigating the Impact of Film-Processing Temperature on Mobility in Organic Diodes: Difference between revisions
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Created page with "==Team members== ==Idea== This project aims to .... ==Setup== We plan for a setup.... ==Measurements== ...." |
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==Idea== | ==Idea== | ||
We will use EA spectroscopy, which will include optical sensors, electrical sensors, and lock-in amplifiers, among other components as a highly sensitive, non-destructive optical sensing platform to measure the internal electric field modulation response of organic diodes under operating conditions, and to quantitatively extract carrier mobility based on this measurement. By systematically controlling the thin film preparation temperature and comparing the EA response characteristics of different samples, the project aims to reveal the influence of film preparation temperature on device mobility. | |||
==Setup== | ==Setup== | ||
We plan for a setup.... | We plan for a setup.... | ||
==Measurements== | ==Measurements== | ||
.... | .... | ||
Revision as of 12:24, 28 January 2026
Team members
Idea
We will use EA spectroscopy, which will include optical sensors, electrical sensors, and lock-in amplifiers, among other components as a highly sensitive, non-destructive optical sensing platform to measure the internal electric field modulation response of organic diodes under operating conditions, and to quantitatively extract carrier mobility based on this measurement. By systematically controlling the thin film preparation temperature and comparing the EA response characteristics of different samples, the project aims to reveal the influence of film preparation temperature on device mobility.
Setup
We plan for a setup....
Measurements
....
