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• 09:30, 29 April 2009 diff hist 0‎ N File:Direct normal solar radiation 2004.jpg ‎
• 09:29, 29 April 2009 diff hist +141‎ Solar Technologies ‎ →‎Solar Potential
• 09:21, 29 April 2009 diff hist +4‎ Major Processes in Organic Solar Cells ‎ →‎Semiconductors compared
• 08:23, 29 April 2009 diff hist 0‎ N File:OPV21 materials.JPG ‎ current
• 08:04, 29 April 2009 diff hist +846‎ Major Processes in Organic Solar Cells ‎ →‎Electronic energy Levels
• 08:03, 29 April 2009 diff hist 0‎ N File:Opv19migration.JPG ‎ current
• 07:52, 29 April 2009 diff hist +43‎ Major Processes in Organic Solar Cells ‎ →‎Electronic energy Levels
• 07:52, 29 April 2009 diff hist 0‎ N File:Opv18 energylevel.JPG ‎ current
• 07:51, 29 April 2009 diff hist +1,920‎ Major Processes in Organic Solar Cells ‎ →‎Charge separation
• 07:22, 29 April 2009 diff hist 0‎ Major Processes in Organic Solar Cells ‎
• 07:22, 29 April 2009 diff hist +114‎ Major Processes in Organic Solar Cells ‎ →‎Exciton Migration
• 07:21, 29 April 2009 diff hist 0‎ N File:Opv17 chargeseparation.JPG ‎ current
• 07:20, 29 April 2009 diff hist 0‎ N File:Opv16 migration.JPG ‎ current
• 07:19, 29 April 2009 diff hist +49‎ Major Processes in Organic Solar Cells ‎ →‎Photon absorption
• 07:19, 29 April 2009 diff hist 0‎ N File:Opv15-photonabsorption.JPG ‎ current
• 16:58, 28 April 2009 diff hist +30‎ Major Processes in Organic Solar Cells ‎ →‎Exciton binding energies
• 16:58, 28 April 2009 diff hist 0‎ N File:Photoabsorption.pdf ‎ current
• 16:56, 28 April 2009 diff hist +3,584‎ Major Processes in Organic Solar Cells ‎ →‎Exciton binding energies
• 16:40, 28 April 2009 diff hist +2,321‎ Major Processes in Organic Solar Cells ‎ →‎Field effect transistors
• 16:20, 28 April 2009 diff hist +50‎ Major Processes in Organic Solar Cells ‎ →‎Field effect transistors
• 16:20, 28 April 2009 diff hist 0‎ N File:Field effect transistor.png ‎ current
• 16:10, 28 April 2009 diff hist +1,704‎ Major Processes in Organic Solar Cells ‎
• 16:04, 28 April 2009 diff hist +2,651‎ N Major Processes in Organic Solar Cells ‎ New page: Edmond Becquerel (1820-1891) was first to discover the photovoltaic effect. But it took quite a long time before there was a report on an efficient cell and that came from Chapin, Fuller a...
• 16:03, 28 April 2009 diff hist 0‎ N File:Led-opvcompared.JPG ‎
• 15:46, 28 April 2009 diff hist +11‎ Main Page ‎ →‎Organic Solar Cells (JLB)
• 15:45, 28 April 2009 diff hist −16‎ Main Page ‎ →‎Introduction to Organic Solar Cells (JLB)
• 15:44, 28 April 2009 diff hist +34‎ Solar Technologies ‎
• 15:42, 28 April 2009 diff hist +18‎ Solar Technologies ‎ →‎Weight and Flexibility
• 15:41, 28 April 2009 diff hist +108‎ Solar Technologies ‎ →‎Weight and Flexibility
• 15:41, 28 April 2009 diff hist 0‎ N File:Opv-flexible.JPG ‎
• 15:38, 28 April 2009 diff hist +45‎ Solar Technologies ‎ →‎Solar Potential
• 15:37, 28 April 2009 diff hist +28‎ Solar Technologies ‎ →‎First Generation Solar Cells
• 15:36, 28 April 2009 diff hist +6,668‎ N Solar Technologies ‎ New page: Although solar energy is a very small component of the overall sources of energy, the use of solar energy is growing significantly. But an exponential increase of the production capacity o...
• 14:32, 28 April 2009 diff hist +204‎ Solar Cell Introduction ‎
• 14:31, 28 April 2009 diff hist 0‎ N File:Organicphotovoltaic assort 800.jpg ‎
• 14:29, 28 April 2009 diff hist +454‎ N Solar Cell Introduction ‎ New page: There are quite serious issues regarding the energy needs. We are using an increasing number of joules and we need the proper resources to provide the energy needs. Organic photovoltaics ...
• 14:26, 28 April 2009 diff hist +11‎ Main Page ‎ →‎Introduction to Organic Solar Cells (JLB)
• 14:25, 28 April 2009 diff hist +27‎ Main Page ‎ →‎Introduction to Organic Solar Cells (JLB)
• 14:20, 28 April 2009 diff hist +144‎ Metal Complex Dopants ‎ →‎Future Directions for OLEDs: Color Purity
• 14:18, 28 April 2009 diff hist 0‎ N File:Ciecolorpurity.jpg ‎ current
• 13:51, 28 April 2009 diff hist −37‎ Help:Contents ‎
• 13:51, 28 April 2009 diff hist +125‎ Help:Contents ‎
• 13:50, 28 April 2009 diff hist +4‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:50, 28 April 2009 diff hist −118‎ Fluorescent/Phosphorescent Dopants ‎ →‎ηext = ηph ηint = ηph γ θ φex
• 13:49, 28 April 2009 diff hist −93‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:42, 28 April 2009 diff hist +163‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:16, 28 April 2009 diff hist −4‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:16, 28 April 2009 diff hist +45‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:15, 28 April 2009 diff hist +44‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:12, 28 April 2009 diff hist +1‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:11, 28 April 2009 diff hist +2‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:11, 28 April 2009 diff hist −35‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:10, 28 April 2009 diff hist +6‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:10, 28 April 2009 diff hist −111‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:03, 28 April 2009 diff hist +113‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 13:01, 28 April 2009 diff hist +28‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 12:59, 28 April 2009 diff hist +2‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 12:59, 28 April 2009 diff hist +2‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 12:58, 28 April 2009 diff hist −54‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 12:58, 28 April 2009 diff hist +39‎ Fluorescent/Phosphorescent Dopants ‎ →‎\eta_ext = \eta_ph \eta_int = \eta_ph \gamma \theta \phi_ext
• 12:50, 28 April 2009 diff hist −3‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 12:49, 28 April 2009 diff hist +10‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:58, 28 April 2009 diff hist −1‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:58, 28 April 2009 diff hist −29‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:57, 28 April 2009 diff hist +31‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:55, 28 April 2009 diff hist +38‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:50, 28 April 2009 diff hist −32‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:49, 28 April 2009 diff hist +50‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:48, 28 April 2009 diff hist 0‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 09:45, 28 April 2009 diff hist +45‎ Metal Complex Dopants ‎ →‎Decreasing triplet lifetime
• 09:45, 28 April 2009 diff hist 0‎ N File:Oled10 tripletlife.JPG ‎ current
• 09:42, 28 April 2009 diff hist +1‎ Fluorescent/Phosphorescent Dopants ‎ →‎Excited States of Organometallic Complexes
• 09:41, 28 April 2009 diff hist +30‎ Fluorescent/Phosphorescent Dopants ‎ →‎Excited States of Organometallic Complexes
• 09:40, 28 April 2009 diff hist +37‎ Fluorescent/Phosphorescent Dopants ‎ →‎Excited States of Organometallic Complexes
• 09:40, 28 April 2009 diff hist 0‎ N File:OLED9 ptoep efficiency.JPG ‎ current
• 09:37, 28 April 2009 diff hist 0‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 09:37, 28 April 2009 diff hist +18‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 09:35, 28 April 2009 diff hist +72‎ Fluorescent/Phosphorescent Dopants ‎ →‎Excited States of Organometallic Complexes
• 09:19, 28 April 2009 diff hist 0‎ N File:Organometalliccomplex.JPG ‎ current
• 09:18, 28 April 2009 diff hist +64‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 09:09, 28 April 2009 diff hist +50‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 09:08, 28 April 2009 diff hist 0‎ N File:Phosphorescent dopants.JPG ‎ current
• 09:04, 28 April 2009 diff hist +24‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 09:01, 28 April 2009 diff hist −5‎ Fluorescent/Phosphorescent Dopants ‎ →‎How to Increase Performance
• 08:54, 28 April 2009 diff hist +47‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 08:53, 28 April 2009 diff hist +84‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 08:51, 28 April 2009 diff hist +61‎ Fluorescent/Phosphorescent Dopants ‎ →‎How to Increase Performance
• 08:49, 28 April 2009 diff hist +41‎ Fluorescent/Phosphorescent Dopants ‎ →‎Dynamics of Förster Energy Transfer
• 08:49, 28 April 2009 diff hist 0‎ N File:Forstertransfer.JPG ‎ current
• 08:45, 28 April 2009 diff hist +18‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 08:45, 28 April 2009 diff hist +51‎ Fluorescent/Phosphorescent Dopants ‎ →‎Jablonski Diagram
• 08:43, 28 April 2009 diff hist +44‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 08:42, 28 April 2009 diff hist 0‎ N File:Device Efficiency.JPG ‎ current
• 11:42, 27 April 2009 diff hist −8‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 11:33, 27 April 2009 diff hist −8‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 11:33, 27 April 2009 diff hist −3‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 11:32, 27 April 2009 diff hist +25‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 11:31, 27 April 2009 diff hist +36‎ Fluorescent/Phosphorescent Dopants ‎ →‎Device Efficiency
• 11:08, 27 April 2009 diff hist +22‎ Metal Complex Dopants ‎ →‎Future Directions for OLEDs: Color Purity
• 11:07, 27 April 2009 diff hist +44‎ Metal Complex Dopants ‎ →‎Ortho-Metallated Ir Complexes
• 11:04, 27 April 2009 diff hist +57‎ Organic Heterojunctions ‎ →‎Typical components of a single heterojunction OLED
• 11:03, 27 April 2009 diff hist 0‎ N File:Oled7-spins.JPG ‎ current
• 11:32, 23 April 2009 diff hist −69‎ Organic Heterojunctions ‎
• 11:31, 23 April 2009 diff hist −69‎ Main Page ‎ →‎Organic Light Emitting Diodes - OLED
• 11:31, 23 April 2009 diff hist +48‎ N Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 1 ‎ Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 1 moved to Fluorescent/Phosphorescent Dopants current
• 11:31, 23 April 2009 diff hist 0‎ m Fluorescent/Phosphorescent Dopants ‎ Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 1 moved to Fluorescent/Phosphorescent Dopants
• 11:30, 23 April 2009 diff hist −5‎ Fluorescent/Phosphorescent Dopants ‎
• 11:29, 23 April 2009 diff hist −5‎ Organic Heterojunctions ‎
• 11:29, 23 April 2009 diff hist −5‎ OLED Charge Mobilities ‎
• 11:29, 23 April 2009 diff hist −5‎ Organic/Organic Heterojunctions in OLEDs ‎
• 11:29, 23 April 2009 diff hist −5‎ The First OLEDs ‎
• 11:29, 23 April 2009 diff hist −5‎ What is a Light Emitting Diode? ‎
• 11:29, 23 April 2009 diff hist −5‎ The OLED Test Cell ‎
• 11:28, 23 April 2009 diff hist −5‎ Light Emitting Electrochemical Processes ‎
• 11:28, 23 April 2009 diff hist −5‎ OLED Device Applications ‎
• 11:25, 23 April 2009 diff hist −84‎ Main Page ‎
• 11:22, 23 April 2009 diff hist +1‎ DPA ‎ current
• 11:21, 23 April 2009 diff hist +54‎ DPA ‎
• 11:16, 23 April 2009 diff hist −2‎ Diphenylanthracene ‎ current
• 11:16, 23 April 2009 diff hist +1‎ Diphenylanthracene ‎
• 11:15, 23 April 2009 diff hist −7‎ Diphenylanthracene ‎
• 11:14, 23 April 2009 diff hist +6‎ Diphenylanthracene ‎
• 11:13, 23 April 2009 diff hist +2‎ Diphenylanthracene ‎
• 11:12, 23 April 2009 diff hist +162‎ N Diphenylanthracene ‎ New page: Diphenylanthracene is one of the early organic chemicals that exhibited ECL. [http://www.chemspider.com/ImageView.aspx?id=14430&mode=3d|Jmol illustration of DPA]
• 11:06, 23 April 2009 diff hist +5‎ The OLED Test Cell ‎ →‎Prototype Emissive Devices
• 10:53, 23 April 2009 diff hist +115‎ N ECL ‎ New page: ECL or electrogenerated chemiluminescence is luminescence caused by the action of electricity on a solution system. current
• 10:50, 23 April 2009 diff hist +10‎ The OLED Test Cell ‎ →‎Solution electrogenerated chemiluminescence example molecules
• 10:33, 23 April 2009 diff hist +1,201‎ The First OLEDs ‎ →‎The First (“Heroic”) Experiments to Generate Light From Organic Materials:Top and Bottom Electrodes/Rectifying Junctions
• 10:29, 23 April 2009 diff hist +780‎ The First OLEDs ‎ →‎The First “Practical” Organic Light Emitting Diodes
• 10:25, 23 April 2009 diff hist +3‎ The First OLEDs ‎ →‎The First “Practical” Organic Light Emitting Diodes
• 10:20, 23 April 2009 diff hist +89‎ What is a Light Emitting Diode? ‎ →‎Forward Bias Diode
• 09:42, 23 April 2009 diff hist +41‎ What is a Light Emitting Diode? ‎ →‎Properties of Diodes
• 09:39, 23 April 2009 diff hist +1‎ Help:Contents ‎
• 09:39, 23 April 2009 diff hist 0‎ What is a Light Emitting Diode? ‎ →‎Properties of Diodes
• 09:38, 23 April 2009 diff hist −45‎ What is a Light Emitting Diode? ‎ →‎Properties of Diodes
• 09:38, 23 April 2009 diff hist +95‎ What is a Light Emitting Diode? ‎ →‎Properties of Diodes
• 09:37, 23 April 2009 diff hist 0‎ N File:Pndiode.swf ‎ current
• 12:05, 22 April 2009 diff hist +282‎ N Two-Photon Spectroscopy ‎ New page: This is a typical optical table setup for a two photon spectroscopic study. The particular arranged of the light path is dependent on the lab but the basic components would be the same. <...
• 12:02, 22 April 2009 diff hist +321‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 11:59, 22 April 2009 diff hist +627‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 11:59, 22 April 2009 diff hist 0‎ N File:Ups fluoridated alkanes.jpg ‎ current
• 11:57, 22 April 2009 diff hist +1,206‎ Photoelectron Spectrometer XPS and UPS ‎
• 11:56, 22 April 2009 diff hist 0‎ N File:Ups au plus alkane.jpg ‎ current
• 11:55, 22 April 2009 diff hist 0‎ N File:Ups au graph.jpg ‎ current
• 11:47, 22 April 2009 diff hist −450‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 11:43, 22 April 2009 diff hist +1,507‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 11:40, 22 April 2009 diff hist +41‎ N File:Angle resolved data.jpg ‎ Example graphs at various takeoff angles. current
• 11:37, 22 April 2009 diff hist +11‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 11:12, 22 April 2009 diff hist +22‎ Mentoring ‎ →‎Getting Started as a Mentor
• 11:11, 22 April 2009 diff hist +92‎ Mentoring ‎ →‎Getting Started as a Mentor
• 11:10, 22 April 2009 diff hist −27‎ Mentoring ‎ →‎Getting Started as a Mentor
• 11:10, 22 April 2009 diff hist −33‎ Mentoring ‎ →‎Getting Started as a Mentor
• 11:08, 22 April 2009 diff hist +3,251‎ Mentoring ‎
• 11:01, 22 April 2009 diff hist +87‎ N Organic Photovoltaic Fabrication and Test Apparatus ‎ New page: <swf width="600" height="500">http://depts.washington.edu/cmditr/media/opvfab.swf</swf>
• 11:00, 22 April 2009 diff hist +86‎ N Conducting Tip Atomic Force Microscopy ‎ New page: <swf width="600" height="500">http://depts.washington.edu/cmditr/media/afm.swf</swf>
• 10:59, 22 April 2009 diff hist +121‎ Help:Contents ‎
• 10:54, 22 April 2009 diff hist +7‎ Writing a Successful Proposal ‎ →‎Clearity, Simplicity and Impact
• 10:54, 22 April 2009 diff hist +2,175‎ Writing a Successful Proposal ‎
• 10:48, 22 April 2009 diff hist +5‎ Writing a Successful Proposal ‎ →‎Defense Advanced Research Project Agency
• 10:48, 22 April 2009 diff hist +3‎ Writing a Successful Proposal ‎ →‎NSF Guidelines
• 10:47, 22 April 2009 diff hist +1,064‎ N Writing a Successful Proposal ‎ New page: Writing an effective proposal is the key to getting funding that makes all research possible. ==NSF Guidelines== Excerpts of NSF guideline for reviewing a proposal *What is the intellec...
• 10:40, 22 April 2009 diff hist +15‎ Main Page ‎ →‎Research Methods
• 10:38, 22 April 2009 diff hist −6‎ Main Page ‎
• 10:37, 22 April 2009 diff hist −4‎ Main Page ‎
• 10:36, 22 April 2009 diff hist +3,556‎ N How to Give a Research Presentation ‎ New page: ===Preparing for and organizing the talk=== *Define one or two key take home messages that you want to audience to have: **This helps you focus on what is important **Your audience in gen...
• 09:59, 22 April 2009 diff hist +19‎ Main Page ‎ →‎N) Research Methods
• 09:57, 22 April 2009 diff hist +2‎ Mentoring ‎ →‎Thoughts on Being An Effective Mentor
• 09:56, 22 April 2009 diff hist +1,677‎ N Mentoring ‎ New page: Thoughts on Mentoring ===What is a mentor?=== Mentor (from Oxford English Dictionary) Simple uses. *1. a. Originally (in form Mentor): a person who acts as guide and adviser to another per...
• 09:51, 22 April 2009 diff hist +15‎ Main Page ‎ →‎N) Research Methods
• 09:50, 22 April 2009 diff hist 0‎ How to Keep a Lab Notebook ‎ →‎Further Reading
• 09:50, 22 April 2009 diff hist +2‎ How to Keep a Lab Notebook ‎ →‎Inventorship
• 09:49, 22 April 2009 diff hist +3‎ How to Keep a Lab Notebook ‎ →‎Important Do's
• 09:49, 22 April 2009 diff hist +5‎ How to Keep a Lab Notebook ‎ →‎Repeated Procedures
• 09:48, 22 April 2009 diff hist +3‎ How to Keep a Lab Notebook ‎ →‎Procedures
• 09:48, 22 April 2009 diff hist +3‎ How to Keep a Lab Notebook ‎ →‎Purpose
• 09:46, 22 April 2009 diff hist +74‎ How to Keep a Lab Notebook ‎
• 09:45, 22 April 2009 diff hist +3,884‎ N How to Keep a Lab Notebook ‎ New page: ===Purpose=== A lab notebook is: *A legal document that: *Establishes date of inventions *Establishes that you actually did the work; if it is not in the notebook it didn’t happen *The ...
• 09:35, 22 April 2009 diff hist +73‎ Main Page ‎ →‎M) Research Tools and Methods
• 09:29, 22 April 2009 diff hist +339‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 09:28, 22 April 2009 diff hist −337‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 09:27, 22 April 2009 diff hist −248‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 09:27, 22 April 2009 diff hist +134‎ N File:Xps spectrum.png ‎ Here is a typical “survey spectrum” for a clean gold surface, modified with a single monolayer of a phenyl-terminated alkanethiol. current
• 09:25, 22 April 2009 diff hist +18‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 09:25, 22 April 2009 diff hist +339‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 09:23, 22 April 2009 diff hist +285‎ N File:Angle resolved xps.jpg ‎ XPS is typically conducted with the sample perpendicular to the detector axis (normal takeoff angles) but if we want additional near-surface sensitivity we can tilt the sample. The above equation shows that tilting the sample gives us analytical informat current
• 09:22, 22 April 2009 diff hist +946‎ Photoelectron Spectrometer XPS and UPS ‎ →‎Data interpretation
• 09:21, 22 April 2009 diff hist +795‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 08:49, 22 April 2009 diff hist +12‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 08:48, 22 April 2009 diff hist −11‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 08:28, 22 April 2009 diff hist 0‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 08:28, 22 April 2009 diff hist +2‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 08:27, 22 April 2009 diff hist +85‎ Photoelectron Spectrometer XPS and UPS ‎ →‎What is our approach? Physics of XPS and UPS
• 08:22, 22 April 2009 diff hist +138‎ Photoelectron Spectrometer XPS and UPS ‎
• 08:19, 22 April 2009 diff hist 0‎ Photoelectron Spectrometer XPS and UPS ‎
• 08:18, 22 April 2009 diff hist 0‎ Photoelectron Spectrometer XPS and UPS ‎
• 08:18, 22 April 2009 diff hist +62‎ Photoelectron Spectrometer XPS and UPS ‎
• 08:16, 22 April 2009 diff hist +2‎ Help:Contents ‎
• 08:16, 22 April 2009 diff hist +18‎ Help:Contents ‎ →‎Heading
• 08:15, 22 April 2009 diff hist +129‎ Help:Contents ‎
• 08:04, 22 April 2009 diff hist +8‎ Photoelectron Spectrometer XPS and UPS ‎
• 12:53, 21 April 2009 diff hist +302‎ Photoelectron Spectrometer XPS and UPS ‎
• 12:52, 21 April 2009 diff hist +29‎ N File:PS-surfaceanalysis.jpg ‎ XPS sampling depth considered current
• 12:51, 21 April 2009 diff hist 0‎ Photoelectron Spectrometer XPS and UPS ‎
• 12:49, 21 April 2009 diff hist +15‎ Photoelectron Spectrometer XPS and UPS ‎
• 12:48, 21 April 2009 diff hist +20‎ N File:Surface electron spectroscopies.jpg ‎ XPS and UPS compared current
• 12:47, 21 April 2009 diff hist −6‎ Photoelectron Spectrometer XPS and UPS ‎
• 12:46, 21 April 2009 diff hist −101‎ Photoelectron Spectrometer XPS and UPS ‎
• 12:42, 21 April 2009 diff hist +131‎ Photoelectron Spectrometer XPS and UPS ‎
• 15:23, 12 March 2009 diff hist +66‎ Main Page ‎
• 15:13, 12 March 2009 diff hist +18‎ Organic Heterojunctions ‎ →‎Typical components of a single heterojunction OLED
• 15:12, 12 March 2009 diff hist +92‎ Organic Heterojunctions ‎ →‎Typical components of a single heterojunction OLED
• 15:12, 12 March 2009 diff hist 0‎ N File:OLED7 voltagrams.JPG ‎ current
• 15:10, 12 March 2009 diff hist 0‎ N File:OLED7 heterjunct chems.JPG ‎ current
• 14:58, 12 March 2009 diff hist +18‎ OLED Charge Mobilities ‎ →‎The disorder formalism (Bassler and Borsenberger)
• 14:57, 12 March 2009 diff hist 0‎ OLED Charge Mobilities ‎ →‎Hole and Electron Mobility in Non-Crystalline Materials
• 14:57, 12 March 2009 diff hist +54‎ OLED Charge Mobilities ‎ →‎Hole and Electron Mobility in Non-Crystalline Materials
• 14:54, 12 March 2009 diff hist 0‎ N File:OLED6 noncrystalinemobility.JPG ‎ current
• 14:43, 12 March 2009 diff hist +51‎ OLED Charge Mobilities ‎ →‎The disorder formalism (Bassler and Borsenberger)
• 14:43, 12 March 2009 diff hist 0‎ N File:OLED6 disorderformalism.jpg ‎ current
• 14:40, 12 March 2009 diff hist +47‎ OLED Charge Mobilities ‎ →‎The disorder formalism (Bassler and Borsenberger)
• 14:39, 12 March 2009 diff hist 0‎ N File:OLED6 fieldependance.jpg ‎ current
• 13:58, 12 March 2009 diff hist 0‎ OLED Charge Mobilities ‎ →‎The disorder formalism (Bassler and Borsenberger)
• 13:58, 12 March 2009 diff hist +18‎ OLED Charge Mobilities ‎ →‎Hole and Electron Mobility in Non-Crystalline Materials
• 13:57, 12 March 2009 diff hist +49‎ OLED Charge Mobilities ‎ →‎The disorder formalism (Bassler and Borsenberger)
• 13:56, 12 March 2009 diff hist 0‎ N File:OLED6 disorder-dipolar.JPG ‎ current
• 12:54, 12 March 2009 diff hist +18‎ OLED Charge Mobilities ‎ →‎The disorder formalism (Bassler and Borsenberger)
• 12:52, 12 March 2009 diff hist +1‎ DPA ‎
• 12:51, 12 March 2009 diff hist +198‎ N DPA ‎ New page: Diphenylanthracene or DPA is common organic that is used in OLEDs. Citation http://www.chemspider.com/Chemical-Structure.14430.html 3D View http://www.chemspider.com/ImageView.aspx?id=144...
• 12:45, 12 March 2009 diff hist +2‎ Light Emitting Electrochemical Processes ‎ →‎Small molecules are used in electrogenerated chemiluminescence (ECL) studies to help elucidate these light emitting processes in “condensed phases”
• 12:45, 12 March 2009 diff hist +2‎ Light Emitting Electrochemical Processes ‎ →‎Small molecules are used in electrogenerated chemiluminescence (ECL) studies to help elucidate these light emitting processes in “condensed phases”
• 12:40, 12 March 2009 diff hist −1‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Organic/Organic’ Heterojunction Devices
• 12:40, 12 March 2009 diff hist +139‎ Help:Contents ‎
• 12:39, 12 March 2009 diff hist +2‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Organic/Organic’ Heterojunction Devices
• 12:39, 12 March 2009 diff hist +7‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Organic/Organic’ Heterojunction Devices
• 12:39, 12 March 2009 diff hist +6‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Single-Layer OLEDs Band-Edge Offsets vs. Contact Electrodes
• 12:38, 12 March 2009 diff hist +1‎ Help:Contents ‎
• 12:36, 12 March 2009 diff hist 0‎ The First OLEDs ‎ →‎The First (“Heroic”) Experiments to Generate Light From Organic Materials:Top and Bottom Electrodes/Rectifying Junctions
• 12:35, 12 March 2009 diff hist +128‎ The First OLEDs ‎ →‎The First (“Heroic”) Experiments to Generate Light From Organic Materials:Top and Bottom Electrodes/Rectifying Junctions
• 12:33, 12 March 2009 diff hist +18‎ Help:Contents ‎
• 12:33, 12 March 2009 diff hist +2‎ Help:Contents ‎
• 12:33, 12 March 2009 diff hist +1‎ Help:Contents ‎
• 12:32, 12 March 2009 diff hist +34‎ Help:Contents ‎
• 12:32, 12 March 2009 diff hist +400‎ Help:Contents ‎
• 12:30, 12 March 2009 diff hist +64‎ Help:Contents ‎
• 12:29, 12 March 2009 diff hist +48‎ Help:Contents ‎
• 12:20, 12 March 2009 diff hist +291‎ The First OLEDs ‎ →‎The First “Practical” Organic Light Emitting Diodes
• 12:20, 12 March 2009 diff hist 0‎ N File:OLED4 heterojunction.jpg ‎ current
• 12:05, 12 March 2009 diff hist +123‎ The OLED Test Cell ‎ →‎Marcus Theory for Electron Transfer
• 11:52, 12 March 2009 diff hist 0‎ The OLED Test Cell ‎ →‎Cross Reactions
• 11:51, 12 March 2009 diff hist 0‎ The OLED Test Cell ‎ →‎Cross Reactions
• 11:51, 12 March 2009 diff hist −26‎ The OLED Test Cell ‎ →‎Cross Reactions
• 11:46, 12 March 2009 diff hist +151‎ The OLED Test Cell ‎ →‎Cross Reactions
• 11:44, 12 March 2009 diff hist 0‎ N File:OLED2 ecl redoxpairs.pdf ‎ current
• 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 ​octaethyl​porphyrin 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
• 15:20, 11 March 2009 diff hist +73‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Organic/Organic’ Heterojunction Devices
• 15:19, 11 March 2009 diff hist +84‎ N File:OLED5-organic heterojunction.jpg ‎ Electron/Hole Pair Recombination and Emission occurs Away from Contacting Electrodes current
• 15:17, 11 March 2009 diff hist −1‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Single-Layer OLEDs Band-Edge Offsets vs. Contact Electrodes
• 15:16, 11 March 2009 diff hist +7‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Single-Layer OLEDs Band-Edge Offsets vs. Contact Electrodes
• 15:16, 11 March 2009 diff hist +1‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Single-Layer OLEDs Band-Edge Offsets vs. Contact Electrodes
• 15:16, 11 March 2009 diff hist +4‎ Organic/Organic Heterojunctions in OLEDs ‎ →‎Single-Layer OLEDs Band-Edge Offsets vs. Contact Electrodes
• 15:14, 11 March 2009 diff hist +48‎ Organic/Organic Heterojunctions in OLEDs ‎
• 15:12, 11 March 2009 diff hist +122‎ N File:OLED5-singlelayer.jpg ‎ Charge recombination and emissive state formation occurs near one of the contacting electrodes, quenching the luminescence current
• 14:15, 11 March 2009 diff hist +1‎ External Education Links ‎ →‎K-12 Educational Resources
• 14:15, 11 March 2009 diff hist +127‎ External Education Links ‎ →‎K-12 Educational Resources
• 13:34, 11 March 2009 diff hist −1‎ OLED Device Applications ‎
• 13:34, 11 March 2009 diff hist −1‎ OLED Device Applications ‎
• 13:33, 11 March 2009 diff hist +1‎ OLED Device Applications ‎
• 13:32, 11 March 2009 diff hist +91‎ OLED Device Applications ‎
• 13:27, 11 March 2009 diff hist +19‎ OLED Device Applications ‎
• 13:26, 11 March 2009 diff hist +1‎ OLED Device Applications ‎
• 13:26, 11 March 2009 diff hist −63‎ OLED Device Applications ‎
• 13:22, 11 March 2009 diff hist +117‎ OLED Device Applications ‎
• 13:20, 11 March 2009 diff hist +284‎ OLED Device Applications ‎
• 13:14, 11 March 2009 diff hist −1‎ The OLED Test Cell ‎
• 13:12, 11 March 2009 diff hist +23‎ OLED Device Applications ‎
• 13:11, 11 March 2009 diff hist +76‎ OLED Device Applications ‎
• 13:11, 11 March 2009 diff hist +1,631‎ N OLED Device Applications ‎ New page: Organic Light Emitting Diodes (OLED) are just are just beginning to appear in the commercial market. These products represent the fruition of 50 years of research building first on the pri...
• 12:34, 11 March 2009 diff hist +21‎ Main Page ‎ →‎I) Organic Light Emitting Diodes - OLED
• 11:25, 11 March 2009 diff hist −3‎ Metal Complex Dopants ‎ →‎Future Directions for OLEDs: �Color Purity
• 11:23, 11 March 2009 diff hist +117‎ Metal Complex Dopants ‎
• 11:19, 11 March 2009 diff hist +191‎ Fluorescent/Phosphorescent Dopants ‎
• 11:14, 11 March 2009 diff hist +55‎ Organic Heterojunctions ‎
• 11:10, 11 March 2009 diff hist +206‎ OLED Charge Mobilities ‎
• 11:07, 11 March 2009 diff hist +111‎ Organic/Organic Heterojunctions in OLEDs ‎
• 11:01, 11 March 2009 diff hist +77‎ Metal Complex Dopants ‎
• 11:01, 11 March 2009 diff hist +1‎ Fluorescent/Phosphorescent Dopants ‎
• 11:01, 11 March 2009 diff hist +76‎ Fluorescent/Phosphorescent Dopants ‎
• 11:01, 11 March 2009 diff hist +80‎ Organic Heterojunctions ‎
• 11:00, 11 March 2009 diff hist +77‎ OLED Charge Mobilities ‎
• 11:00, 11 March 2009 diff hist +77‎ Organic/Organic Heterojunctions in OLEDs ‎
• 11:00, 11 March 2009 diff hist +76‎ What is a Light Emitting Diode? ‎
• 11:00, 11 March 2009 diff hist +76‎ The OLED Test Cell ‎
• 10:59, 11 March 2009 diff hist +77‎ Light Emitting Electrochemical Processes ‎
• 10:58, 11 March 2009 diff hist +7‎ The First OLEDs ‎
• 10:56, 11 March 2009 diff hist +15‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 10:54, 11 March 2009 diff hist −61‎ The First OLEDs ‎
• 10:52, 11 March 2009 diff hist +23‎ The First OLEDs ‎
• 10:51, 11 March 2009 diff hist +108‎ The First OLEDs ‎
• 10:50, 11 March 2009 diff hist −6‎ The First OLEDs ‎
• 10:49, 11 March 2009 diff hist +195‎ The First OLEDs ‎
• 10:46, 11 March 2009 diff hist −5‎ What is a Light Emitting Diode? ‎ →‎What is an light emitting diode?
• 10:44, 11 March 2009 diff hist +52‎ What is a Light Emitting Diode? ‎
• 10:38, 11 March 2009 diff hist 0‎ The OLED Test Cell ‎
• 10:37, 11 March 2009 diff hist +597‎ The OLED Test Cell ‎
• 09:46, 11 March 2009 diff hist −31‎ Metal Complex Dopants ‎
• 09:45, 11 March 2009 diff hist 0‎ Metal Complex Dopants ‎
• 09:44, 11 March 2009 diff hist +57‎ Metal Complex Dopants ‎
• 09:42, 11 March 2009 diff hist +6‎ Metal Complex Dopants ‎
• 09:42, 11 March 2009 diff hist +23‎ Metal Complex Dopants ‎
• 09:41, 11 March 2009 diff hist −23‎ Metal Complex Dopants ‎
• 09:40, 11 March 2009 diff hist +23‎ Metal Complex Dopants ‎
• 09:31, 11 March 2009 diff hist 0‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 09:30, 11 March 2009 diff hist 0‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 09:28, 11 March 2009 diff hist −82‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 09:28, 11 March 2009 diff hist +35‎ N Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 2 ‎ Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 2 moved to Metal Complex Dopants current
• 09:28, 11 March 2009 diff hist 0‎ m Metal Complex Dopants ‎ Adding Highly Fluorescent/Phosphorescent Dopants to OLEDS to Enhance Light Output and Stability, Part 2 moved to Metal Complex Dopants
• 09:04, 10 March 2009 diff hist +3,878‎ N Organic/Organic Heterojunctions in OLEDs ‎ New page: This simplistic energy diagram shows what happens to an organic film that is sandwiched between two contacting electrodes. One side is indium tin oxide and the other is aluminum. We are ma...
• 09:04, 10 March 2009 diff hist +16‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 08:18, 10 March 2009 diff hist +3,133‎ N The First OLEDs ‎ New page: The first OLEDs were green as seen in this early example from the University of Arizona. The image on the right is so bright that is appears white. The first experiments to generate light...
• 08:17, 10 March 2009 diff hist +4‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 07:45, 10 March 2009 diff hist −8‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 07:45, 10 March 2009 diff hist +54‎ N Light Emitting Electrochemical Processes, Part 1 ‎ Light Emitting Electrochemical Processes, Part 1 moved to Light Emitting Electrochemical Processes current
• 07:45, 10 March 2009 diff hist 0‎ m Light Emitting Electrochemical Processes ‎ Light Emitting Electrochemical Processes, Part 1 moved to Light Emitting Electrochemical Processes
• 14:09, 2 March 2009 diff hist 0‎ MediaWiki:Sidebar ‎
• 14:08, 2 March 2009 diff hist −35‎ MediaWiki:Sidebar ‎
• 14:01, 2 March 2009 diff hist +83‎ MediaWiki:Sidebar ‎
• 13:59, 2 March 2009 diff hist +1‎ Main Page ‎
• 13:58, 2 March 2009 diff hist +35‎ MediaWiki:Sidebar ‎
• 13:57, 2 March 2009 diff hist +31‎ MediaWiki:Sidebar ‎
• 13:55, 2 March 2009 diff hist +170‎ N MediaWiki:Sidebar ‎ New page: * navigation ** mainpage|mainpage ** portal-url|portal ** currentevents-url|currentevents ** recentchanges-url|recentchanges ** randompage-url|randompage ** helppage|help
• 12:16, 10 February 2009 diff hist +12‎ Main Page ‎ →‎B) Basics of light– (JLB)
• 12:13, 10 February 2009 diff hist +1‎ Main Page ‎ →‎B) Basics of light– (JLB)
• 12:07, 10 February 2009 diff hist +84‎ Main Page ‎ →‎B) Basics of light– (JLB)
• 12:05, 10 February 2009 diff hist +885‎ N CleanEnergyWIKI:Community Portal ‎ New page: We invite center members to edit and improve this wiki. Here are some guidelines: Accuracy- Please be careful about scientific accuracy. Check with faculty if you are unsure. If you find ...
• 11:57, 10 February 2009 diff hist +161‎ N CleanEnergyWIKI:Site support ‎ New page: This effort is fully supported by the Center on Materials and Devices for Information Technology Research - An NSF Science and Technology Center No. DMR 0120967. current
• 11:39, 10 February 2009 diff hist +74‎ N Help:Contents ‎ New page: [http://en.wikipedia.org/wiki/How_to_edit Main Wikipedia How to Edit page]
• 11:32, 10 February 2009 diff hist −77‎ Main Page ‎
• 11:31, 10 February 2009 diff hist +51‎ Main Page ‎
• 11:27, 10 February 2009 diff hist +451‎ External Education Links ‎
• 11:16, 10 February 2009 diff hist +5‎ External Education Links ‎
• 11:15, 10 February 2009 diff hist +729‎ N External Education Links ‎ New page: ==K-12 Educational Resources== [http://www.physicsclassroom.com/ The Physics Classroom - Tutorials, demonstrations and manipulatives] [http://www.upscale.utoronto.ca/GeneralInterest/Harris...
• 11:04, 10 February 2009 diff hist +47‎ Main Page ‎ →‎Photonics Education Links
• 11:03, 10 February 2009 diff hist −1‎ Main Page ‎
• 10:41, 2 February 2009 diff hist 0‎ Light Emitting Electrochemical Processes ‎ →‎The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
• 08:56, 2 February 2009 diff hist 0‎ N File:Oled1 15 phosphor.png ‎
• 08:56, 2 February 2009 diff hist +180‎ Light Emitting Electrochemical Processes ‎ →‎The ratio of singlet state to triplet state formation helps to determine the OLED efficiency.
• 08:54, 2 February 2009 diff hist 0‎ N File:Oled1 19 jablonski ratio.png ‎ current
• 08:15, 2 February 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.
• 08:13, 2 February 2009 diff hist +69‎ Light Emitting Electrochemical Processes ‎ →‎Light emission in the OLED arises from recombination (electron transfer ) reactions of cation and anion radical of conjugated aromatic molecules.
• 08:04, 29 January 2009 diff hist −14‎ Light Emitting Electrochemical Processes ‎ →‎The Jablonski diagram is used to describe the energy (wavelength) of absorbance and luminescence for aromatic molecules.
• 16:30, 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.
• 16:26, 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.
• 16:26, 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.
• 16:26, 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.
• 16:25, 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”
• 16:25, 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”
• 15:45, 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”
• 15:45, 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”
• 15:44, 28 January 2009 diff hist 0‎ N File:Oled1 23 threeECLmolecules.png ‎ current
• 15:04, 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.
• 15:02, 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.
• 15:02, 28 January 2009 diff hist +42‎ Light Emitting Electrochemical Processes ‎
• 15:00, 28 January 2009 diff hist −6‎ Light Emitting Electrochemical Processes ‎
• 14:57, 28 January 2009 diff hist +49‎ Light Emitting Electrochemical Processes ‎
• 14:56, 28 January 2009 diff hist +36‎ Light Emitting Electrochemical Processes ‎
• 14:55, 28 January 2009 diff hist +149‎ Light Emitting Electrochemical Processes ‎
• 14:55, 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
• 14:53, 28 January 2009 diff hist 0‎ N File:Oled1 13 fluoresence.png ‎ current
• 14:52, 28 January 2009 diff hist 0‎ N File:Oled1 9 relaxation.png ‎ current
• 14:47, 28 January 2009 diff hist 0‎ N File:Oled1 14 abs-lum-graph.png ‎
• 14:47, 28 January 2009 diff hist 0‎ N File:Oled1 10 absorbance.png ‎ current
• 14:45, 28 January 2009 diff hist +17‎ Light Emitting Electrochemical Processes ‎
• 14:43, 28 January 2009 diff hist −3‎ Light Emitting Electrochemical Processes ‎
• 14:42, 28 January 2009 diff hist +1‎ Light Emitting Electrochemical Processes ‎
• 14:41, 28 January 2009 diff hist +1‎ Light Emitting Electrochemical Processes ‎
• 14:40, 28 January 2009 diff hist +11‎ Light Emitting Electrochemical Processes ‎
• 14:39, 28 January 2009 diff hist 0‎ Light Emitting Electrochemical Processes ‎
• 14:39, 28 January 2009 diff hist −9‎ Light Emitting Electrochemical Processes ‎
• 14:36, 28 January 2009 diff hist +16‎ Light Emitting Electrochemical Processes ‎
• 14:32, 28 January 2009 diff hist 0‎ Light Emitting Electrochemical Processes ‎
• 14:30, 28 January 2009 diff hist +30‎ Light Emitting Electrochemical Processes ‎
• 14:28, 28 January 2009 diff hist +4‎ Light Emitting Electrochemical Processes ‎
• 14:27, 28 January 2009 diff hist +52‎ Light Emitting Electrochemical Processes ‎
• 14:07, 28 January 2009 diff hist +307‎ Light Emitting Electrochemical Processes ‎
• 14:06, 28 January 2009 diff hist +12‎ Light Emitting Electrochemical Processes ‎
• 13:45, 28 January 2009 diff hist +1‎ Main Page ‎
• 13:35, 28 January 2009 diff hist +34‎ Main Page ‎
• 13:35, 28 January 2009 diff hist −59‎ Light Emitting Electrochemical Processes ‎
• 13:34, 28 January 2009 diff hist +59‎ Light Emitting Electrochemical Processes ‎
• 09:52, 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.
• 09:52, 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.
• 09:51, 28 January 2009 diff hist 0‎ N File:Oled1 4 eclredox.png ‎ current
• 09:49, 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.
• 09:41, 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.
• 09:40, 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.
• 09:34, 28 January 2009 diff hist +11‎ N File:Oled1 3 eclredox.png ‎ first frame current
• 08:12, 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.
• 08:12, 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.
• 08:11, 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.
• 08:11, 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.
• 08:11, 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.
• 16:55, 27 January 2009 diff hist +18‎ Light Emitting Electrochemical Processes ‎
• 16:54, 27 January 2009 diff hist +21‎ Light Emitting Electrochemical Processes ‎
• 16:02, 27 January 2009 diff hist +63‎ N Luminescence Phenomena ‎ New page: Luminesescence is the emission of light there are four classes.
• 15:42, 27 January 2009 diff hist +3‎ Main Page ‎ →‎C) Luminescence and Color – (Kippelen)
• 15:35, 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.
• 15:01, 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.
• 14:49, 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.
• 14:48, 27 January 2009 diff hist +39‎ Light Emitting Electrochemical Processes ‎
• 14:47, 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.
• 14:47, 27 January 2009 diff hist +1,144‎ Light Emitting Electrochemical Processes ‎
• 14:08, 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.
• 14:07, 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.
• 14:06, 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.
• 14:04, 27 January 2009 diff hist 0‎ N File:Oled1 19 spinstatics.png ‎ current
• 14:04, 27 January 2009 diff hist 0‎ N File:Oled1 18 spinstatics.png ‎ current
• 14:03, 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.
• 13:56, 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.
• 13:56, 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.
• 13:40, 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.
• 13:38, 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.
• 13:37, 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.
• 13:36, 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.
• 13:11, 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.
• 13:10, 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.
• 13:10, 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.
• 13:09, 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.
• 13:07, 27 January 2009 diff hist 0‎ N File:Ua logo.jpg ‎ current
• 13:06, 27 January 2009 diff hist 0‎ N File:Cmditr logo.gif ‎ current
• 12:59, 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.
• 12:52, 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.
• 12:39, 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.
• 12:35, 27 January 2009 diff hist +65‎ CleanEnergyWIKI:About ‎
• 12:34, 27 January 2009 diff hist +8‎ N CleanEnergyWIKI:About ‎ New page: This is.
• 12:33, 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
• 12:29, 27 January 2009 diff hist +39‎ N File:Oled1 8 jablonski.png ‎ A Jablonski diagram for an OLED system. current
• 12:27, 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.
• 12:24, 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.
• 08:52, 26 January 2009 diff hist −17‎ Light Emitting Electrochemical Processes ‎
• 08:52, 26 January 2009 diff hist +119‎ Light Emitting Electrochemical Processes ‎
• 16:52, 23 January 2009 diff hist +24‎ Light Emitting Electrochemical Processes ‎
• 16:48, 23 January 2009 diff hist −462‎ Light Emitting Electrochemical Processes ‎
• 16:45, 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...
• 16:44, 23 January 2009 diff hist +3‎ Main Page ‎ →‎I) OLEDs – (Armstrong)
• 14:20, 20 January 2009 diff hist +7‎ Main Page ‎
• 14:19, 20 January 2009 diff hist +161‎ Main Page ‎
• 14:18, 20 January 2009 diff hist +1‎ Main Page ‎
• 14:17, 20 January 2009 diff hist −214‎ Main Page ‎
• 14:14, 20 January 2009 diff hist −94‎ Main Page ‎
• 14:08, 20 January 2009 diff hist +3,281‎ Main Page ‎
• 13:59, 20 January 2009 diff hist −364‎ Main Page ‎

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