EFFECTS OF GATE THICKNESS, GATE MORPHOLOGY, AND EMISSIVE MATERIAL ON ORGANIC LIGHT EMITTING VARACTOR CAPACITOR PERFORMANCE
Electronic Theses and Dissertations
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Item Details
- abstract
- To keep up with the demands of power efficiency and broadened applicability, new lighting technologies must be invented. Organic light emitting varactors (OLEVs) represent a promising future in this regard and are explored here. OLEVs are built similarly to OLEDs, with an added gate. Under AC driving, this gate allows control of current flow to yield a higher maximum efficiency than the OLED. Numerous factors must be studied before such efficiencies can be approached.
- subject
- Efficiency
- OLED
- OLEV
- Varactor
- contributor
- Carroll, David L (committee chair)
- Williams, Richard (committee member)
- Matthews, George E (committee member)
- date
- 2018-08-23T08:35:37Z (accessioned)
- 2018-08-23T08:35:37Z (available)
- 2018 (issued)
- degree
- Physics (discipline)
- identifier
- http://hdl.handle.net/10339/92378 (uri)
- language
- en (iso)
- publisher
- Wake Forest University
- title
- EFFECTS OF GATE THICKNESS, GATE MORPHOLOGY, AND EMISSIVE MATERIAL ON ORGANIC LIGHT EMITTING VARACTOR CAPACITOR PERFORMANCE
- type
- Thesis