Novel Molecular Semiconductors for Optoelectronic Applications: Photophysics and Devices

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Title
Novel Molecular Semiconductors for Optoelectronic Applications: Photophysics and Devices

CoPED ID
95f69e75-0877-4a66-93b2-ca4fa4aa329a

Status
Closed


Value
No funds listed.

Start Date
Sept. 30, 2019

End Date
Sept. 30, 2021

Description

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This research project is focused on the investigation of novel organic semiconductors, exploring different photophysical mechanisms to promote the application of new materials in light emitting devices that are able to work under optical or electrical excitations. Complex photophysical mechanisms will be investigated, including the investigation of thermally activated delayed fluorescence in compounds with cyclic structures, energy transfer in D-A-D compounds that carry triplet-donors and transfer energy to a singlet-acceptor, and novel molecular structures with enhanced spin-orbit interactions to promote efficient emission in the deep-red and near-infrared regions. The research work involves studies in solution and solid state films as a function of temperature, using steady-state and time-resolved optical spectroscopy techniques, and fabrication of electroluminescent diodes. The student will acquire extensive training in advanced spectroscopy techniques and device fabrication methods using clean-room facilities, and will have the opportunity to consolidate fundamental concepts in physics and chemistry by attending our postgraduate courses and seminars along the project.

Fernando Dias SUPER_PER

Subjects by relevance
  1. Spectroscopy
  2. Semiconductors
  3. Optics
  4. Energy efficiency

Extracted key phrases
  1. Novel Molecular semiconductor
  2. Novel organic semiconductor
  3. Optoelectronic application
  4. Different photophysical mechanism
  5. Research project
  6. Complex photophysical mechanism
  7. Research work
  8. Novel molecular structure
  9. Optical spectroscopy technique
  10. Devices
  11. Photophysics
  12. Device fabrication method
  13. Advanced spectroscopy technique
  14. Energy transfer
  15. Solid state film

Related Pages

UKRI project entry

UK Project Locations