User contributions for Cmditradmin
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- 11:25, 12 March 2009 diff hist +42 The OLED Test Cell →Cross Reactions
- 10:53, 12 March 2009 diff hist +17 The OLED Test Cell →Characterization of the Energetics of Charge Recombination
- 10:53, 12 March 2009 diff hist −16 The OLED Test Cell →Prototype Emissive Devices
- 10:52, 12 March 2009 diff hist +6 The OLED Test Cell →Prototype Emissive Devices
- 10:52, 12 March 2009 diff hist 0 The OLED Test Cell →Prototype Emissive Devices
- 10:52, 12 March 2009 diff hist +17 The OLED Test Cell →Prototype Emissive Devices
- 10:51, 12 March 2009 diff hist +16 The OLED Test Cell →Prototype Emissive Devices
- 10:50, 12 March 2009 diff hist +6 The OLED Test Cell →Prototype Emissive Devices
- 10:49, 12 March 2009 diff hist +6 The OLED Test Cell →Prototype Emissive Devices
- 10:49, 12 March 2009 diff hist +25 The OLED Test Cell →Prototype Emissive Devices
- 10:48, 12 March 2009 diff hist 0 N File:OLED2 energetics.JPG current
- 10:43, 12 March 2009 diff hist +12 The OLED Test Cell →Prototype Emissive Devices
- 10:42, 12 March 2009 diff hist +30 The OLED Test Cell →Prototype Emissive Devices
- 10:41, 12 March 2009 diff hist 0 N File:OLED2 prototype.JPG current
- 10:39, 12 March 2009 diff hist 0 The OLED Test Cell →Solution electrogenerated chemiluminescence example molecules
- 10:38, 12 March 2009 diff hist +37 The OLED Test Cell →Solution electrogenerated chemiluminescence example molecules
- 10:37, 12 March 2009 diff hist +94 MediaWiki:Sidebar
- 10:34, 12 March 2009 diff hist +4 MediaWiki:Sidebar
- 10:24, 12 March 2009 diff hist 0 N File:OLED2 ECL.PNG current
- 10:22, 12 March 2009 diff hist 0 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 10:21, 12 March 2009 diff hist −11 Light Emitting Electrochemical Processes →The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
- 10:19, 12 March 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.
- 10:16, 12 March 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.
- 10:15, 12 March 2009 diff hist 0 File:Oled1 15 phosphor.png uploaded a new version of "Image:Oled1 15 phosphor.png" current
- 10:14, 12 March 2009 diff hist −91 Light Emitting Electrochemical Processes →The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
- 10:09, 12 March 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.
- 10:08, 12 March 2009 diff hist −1,043 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:06, 12 March 2009 diff hist +14 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:06, 12 March 2009 diff hist +1 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:05, 12 March 2009 diff hist +12 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:03, 12 March 2009 diff hist +561 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 10:02, 12 March 2009 diff hist +25 Light Emitting Electrochemical Processes →Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
- 08:08, 12 March 2009 diff hist −22 Metal Complex Dopants →Decreasing triplet lifetime
- 08:07, 12 March 2009 diff hist −22 Metal Complex Dopants →Future Directions for OLEDs: Color Purity
- 08:06, 12 March 2009 diff hist 0 N File:OLED Fabrication Line.jpg current
- 07:51, 12 March 2009 diff hist +65 Fluorescent/Phosphorescent Dopants →Excited States of Organometallic Complexes
- 07:50, 12 March 2009 diff hist +33 N File:PtOEP.png Platinum octaethylporphyrin current
- 15:42, 11 March 2009 diff hist +7 OLED Charge Mobilities →Transfer Mobility Experiments
- 15:42, 11 March 2009 diff hist +5 m OLED Charge Mobilities →Transfer Mobility Experiments
- 15:41, 11 March 2009 diff hist +15 OLED Charge Mobilities →Transfer Mobility Experiments
- 15:41, 11 March 2009 diff hist +79 OLED Charge Mobilities →Transfer Mobility Experiments
- 15:39, 11 March 2009 diff hist 0 OLED Charge Mobilities →Transfer Mobility Experiments
- 15:39, 11 March 2009 diff hist +75 OLED Charge Mobilities →Transfer Mobility Experiments
- 15:35, 11 March 2009 diff hist +2 OLED Charge Mobilities →Fundamentals of Charge Transport in Organic Solids
- 15:34, 11 March 2009 diff hist +4 OLED Charge Mobilities →Fundamentals of Charge Transport in Organic Solids
- 15:34, 11 March 2009 diff hist 0 OLED Charge Mobilities →Fundamentals of Charge Transport in Organic Solids
- 15:34, 11 March 2009 diff hist +71 OLED Charge Mobilities →Fundamentals of Charge Transport in Organic Solids
- 15:33, 11 March 2009 diff hist 0 N File:OLED6 transportrates.JPG current
- 15:30, 11 March 2009 diff hist +22 OLED Charge Mobilities →Fundamentals of Charge Transport in Organic Solids
- 15:21, 11 March 2009 diff hist 0 Organic/Organic Heterojunctions in OLEDs →Single-Layer OLEDs Band-Edge Offsets vs. Contact Electrodes
