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- 17:26, 28 January 2009 diff hist −1 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 17:26, 28 January 2009 diff hist +18 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 17:26, 28 January 2009 diff hist +12 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 17:25, 28 January 2009 diff hist +7 Light Emitting Electrochemical Processes →Small molecules are used in electrogenerated chemiluminescence (ECL) studies to help elucidate these light emitting processes in “condensed phases”
- 17:25, 28 January 2009 diff hist +140 Light Emitting Electrochemical Processes →Small molecules are used in electrogenerated chemiluminescence (ECL) studies to help elucidate these light emitting processes in “condensed phases”
- 16:45, 28 January 2009 diff hist +6 Light Emitting Electrochemical Processes →Small molecules are used in electrogenerated chemiluminescence (ECL) studies to help elucidate these light emitting processes in “condensed phases”
- 16:45, 28 January 2009 diff hist +41 Light Emitting Electrochemical Processes →Small molecules are used in electrogenerated chemiluminescence (ECL) studies to help elucidate these light emitting processes in “condensed phases”
- 16:44, 28 January 2009 diff hist 0 N File:Oled1 23 threeECLmolecules.png current
- 16:04, 28 January 2009 diff hist −1 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 16:02, 28 January 2009 diff hist −1 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 16:02, 28 January 2009 diff hist +42 Light Emitting Electrochemical Processes
- 16:00, 28 January 2009 diff hist −6 Light Emitting Electrochemical Processes
- 15:57, 28 January 2009 diff hist +49 Light Emitting Electrochemical Processes
- 15:56, 28 January 2009 diff hist +36 Light Emitting Electrochemical Processes
- 15:55, 28 January 2009 diff hist +149 Light Emitting Electrochemical Processes
- 15:55, 28 January 2009 diff hist 0 File:Oled1 14 abs-lum-graph.png uploaded a new version of "Image:Oled1 14 abs-lum-graph.png" current
- 15:53, 28 January 2009 diff hist 0 N File:Oled1 13 fluoresence.png current
- 15:52, 28 January 2009 diff hist 0 N File:Oled1 9 relaxation.png current
- 15:47, 28 January 2009 diff hist 0 N File:Oled1 14 abs-lum-graph.png
- 15:47, 28 January 2009 diff hist 0 N File:Oled1 10 absorbance.png current
- 15:45, 28 January 2009 diff hist +17 Light Emitting Electrochemical Processes
- 15:43, 28 January 2009 diff hist −3 Light Emitting Electrochemical Processes
- 15:42, 28 January 2009 diff hist +1 Light Emitting Electrochemical Processes
- 15:41, 28 January 2009 diff hist +1 Light Emitting Electrochemical Processes
- 15:40, 28 January 2009 diff hist +11 Light Emitting Electrochemical Processes
- 15:39, 28 January 2009 diff hist 0 Light Emitting Electrochemical Processes
- 15:39, 28 January 2009 diff hist −9 Light Emitting Electrochemical Processes
- 15:36, 28 January 2009 diff hist +16 Light Emitting Electrochemical Processes
- 15:32, 28 January 2009 diff hist 0 Light Emitting Electrochemical Processes
- 15:30, 28 January 2009 diff hist +30 Light Emitting Electrochemical Processes
- 15:28, 28 January 2009 diff hist +4 Light Emitting Electrochemical Processes
- 15:27, 28 January 2009 diff hist +52 Light Emitting Electrochemical Processes
- 15:07, 28 January 2009 diff hist +307 Light Emitting Electrochemical Processes
- 15:06, 28 January 2009 diff hist +12 Light Emitting Electrochemical Processes
- 14:45, 28 January 2009 diff hist +1 Main Page
- 14:35, 28 January 2009 diff hist +34 Main Page
- 14:35, 28 January 2009 diff hist −59 Light Emitting Electrochemical Processes
- 14:34, 28 January 2009 diff hist +59 Light Emitting Electrochemical Processes
- 10:52, 28 January 2009 diff hist −32 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:52, 28 January 2009 diff hist +135 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:51, 28 January 2009 diff hist 0 N File:Oled1 4 eclredox.png current
- 10:49, 28 January 2009 diff hist +61 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:41, 28 January 2009 diff hist +32 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:40, 28 January 2009 diff hist +46 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:34, 28 January 2009 diff hist +11 N File:Oled1 3 eclredox.png first frame current
- 09:12, 28 January 2009 diff hist −1 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 09:12, 28 January 2009 diff hist +12 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 09:11, 28 January 2009 diff hist +1 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 09:11, 28 January 2009 diff hist +6 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 09:11, 28 January 2009 diff hist 0 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 17:55, 27 January 2009 diff hist +18 Light Emitting Electrochemical Processes
- 17:54, 27 January 2009 diff hist +21 Light Emitting Electrochemical Processes
- 17:02, 27 January 2009 diff hist +63 N Luminescence Phenomena New page: Luminesescence is the emission of light there are four classes.
- 16:42, 27 January 2009 diff hist +3 Main Page →C) Luminescence and Color – (Kippelen)
- 16:35, 27 January 2009 diff hist +6 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 16:01, 27 January 2009 diff hist +4 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 15:49, 27 January 2009 diff hist −6 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 15:48, 27 January 2009 diff hist +39 Light Emitting Electrochemical Processes
- 15:47, 27 January 2009 diff hist −2 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 15:47, 27 January 2009 diff hist +1,144 Light Emitting Electrochemical Processes
- 15:08, 27 January 2009 diff hist −2 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 15:07, 27 January 2009 diff hist +2 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 15:06, 27 January 2009 diff hist +82 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 15:04, 27 January 2009 diff hist 0 N File:Oled1 19 spinstatics.png current
- 15:04, 27 January 2009 diff hist 0 N File:Oled1 18 spinstatics.png current
- 15:03, 27 January 2009 diff hist +43 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 14:56, 27 January 2009 diff hist −1 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 14:56, 27 January 2009 diff hist 0 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 14:40, 27 January 2009 diff hist −6 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 14:38, 27 January 2009 diff hist +6 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 14:37, 27 January 2009 diff hist +6 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 14:36, 27 January 2009 diff hist −23 Light Emitting Electrochemical Processes →The color of absorption and emission in simple molecular systems is controlled by the structure of the molecule and by the degree of conjugation in the aromatic system.
- 14:11, 27 January 2009 diff hist −6 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 14:10, 27 January 2009 diff hist −21 Light Emitting Electrochemical Processes →The color of absorption and emission in simple molecular systems is controlled by the structure of the molecule and by the degree of conjugation in the aromatic system.
- 14:10, 27 January 2009 diff hist −1 Light Emitting Electrochemical Processes →The color of absorption and emission in simple molecular systems is controlled by the structure of the molecule and by the degree of conjugation in the aromatic system.
- 14:09, 27 January 2009 diff hist 0 Light Emitting Electrochemical Processes →The color of absorption and emission in simple molecular systems is controlled by the structure of the molecule and by the degree of conjugation in the aromatic system.
- 14:07, 27 January 2009 diff hist 0 N File:Ua logo.jpg current
- 14:06, 27 January 2009 diff hist 0 N File:Cmditr logo.gif current
- 13:59, 27 January 2009 diff hist +22 Light Emitting Electrochemical Processes →The color of absorption and emission in simple molecular systems is controlled by the structure of the molecule and by the degree of conjugation in the aromatic system.
- 13:52, 27 January 2009 diff hist +26 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 13:39, 27 January 2009 diff hist +11 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 13:35, 27 January 2009 diff hist +65 CleanEnergyWIKI:About
- 13:34, 27 January 2009 diff hist +8 N CleanEnergyWIKI:About New page: This is.
- 13:33, 27 January 2009 diff hist +102 N CleanEnergyWIKI talk:About New page: This is the wiki for CMDITR. It serves as the repository for instructional text throughout the center. current
- 13:29, 27 January 2009 diff hist +39 N File:Oled1 8 jablonski.png A Jablonski diagram for an OLED system. current
- 13:27, 27 January 2009 diff hist −52 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 13:24, 27 January 2009 diff hist +71 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 09:52, 26 January 2009 diff hist −17 Light Emitting Electrochemical Processes
- 09:52, 26 January 2009 diff hist +119 Light Emitting Electrochemical Processes
- 17:52, 23 January 2009 diff hist +24 Light Emitting Electrochemical Processes
- 17:48, 23 January 2009 diff hist −462 Light Emitting Electrochemical Processes
- 17:45, 23 January 2009 diff hist +7,866 N Light Emitting Electrochemical Processes New page: 1. Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules. 2. The color of absorption and emission...
- 17:44, 23 January 2009 diff hist +3 Main Page →I) OLEDs – (Armstrong)
- 15:20, 20 January 2009 diff hist +7 Main Page
- 15:19, 20 January 2009 diff hist +161 Main Page
- 15:18, 20 January 2009 diff hist +1 Main Page
- 15:17, 20 January 2009 diff hist −214 Main Page
- 15:14, 20 January 2009 diff hist −94 Main Page
- 15:08, 20 January 2009 diff hist +3,281 Main Page
- 14:59, 20 January 2009 diff hist −364 Main Page