Difference between revisions of "Main Page"
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<big>'''Center for Materials and Devices for Information Technology Research'''</big> | <big>'''Center for Materials and Devices for Information Technology Research'''</big> | ||
A) Center Overview - “Photonic Integration--Size, Weight, and Power Savings and Dramatic Performance, Enhancements and Cost Reduction for Computing, Telecommunications, Transportation, Health Care, and Defense" – Larry Dalton | |||
B) Basics of light– (JLB) | |||
• Propagation of Light | |||
• Reflection and Refraction | |||
• Total Internal Reflection | |||
• Dispersion and Scattering of Light | |||
• Diffraction of Light | |||
C) Luminescence and Color – (Kippelen) | |||
• Luminescence Phenomena | |||
• Introduction to Electromagnetic Radiation | |||
• Electromagnetic Spectrum | |||
• Color | |||
• Chromaticity Diagram | |||
• Additive and Substractive Color Mixing | |||
D) Molecular Orbitals – (Marder & JLB) | |||
• Atomic Orbitals and Nodes | |||
• Electronegativity and Bonding between Atoms | |||
• Sigma and pi orbitals | |||
• Electronic Coupling between Orbitals | |||
• Donors and acceptors | |||
E) Electronic Band Structure of Organic Materials – (JLB) | |||
o Introduction | |||
• Electronic Structure of Hydrogen | |||
• The Polyene Series, Part 1 | |||
• The Polyene Series, Part 2 | |||
• Bloch's Theorem, Part 1 | |||
• Bloch's Theorem, Part 2 | |||
• Electrical Properties | |||
• Electronic States versus Molecular Levels | |||
F) Absorption and Emission of Light – (JLB & Marder) | |||
• Introduction | |||
• Changes in Absorption Spectra | |||
• Jablonski diagram | |||
• Absorption, Internal Conversion, Fluorescence, Intersystem Crossing, and Phosphorescence Processes | |||
• Spectroscopy, Extinction Coefficient, Oscillator Strength, Transition Dipole Moment | |||
• Absorption and Emission | |||
• Photochromism | |||
• Interchain Interactions | |||
G) Transport Properties– (JLB) | |||
• Introduction | |||
• Band Regime versus Hopping Regime | |||
• Electronic Coupling | |||
• Model Calculations of Electronic Coupling, Part 1 | |||
• Model Calculations of Electronic Coupling, Part 2 | |||
• Small Electronic Couplings and Marcus Theory | |||
• Intramolecular Reorganization Energy | |||
• Electron-Phonon Coupling | |||
H) Liquid Crystals and Displays – (Marder) | |||
• Introduction to Liquid Crystals | |||
• Double Refraction and Birefringence | |||
• History of Liquid Crystals | |||
• Director – Degrees of order in Liquid Crystals | |||
• Classification and Examples of Liquid Crystals, Part 1 | |||
• Classification and Examples of Liquid Crystals, Part 2 | |||
• Alignment | |||
• Freederickz Transition and Dielectric Anisotropy | |||
• Liquid Crystal Displays | |||
I) OLEDs – (Armstrong) | |||
• Preface | |||
• Light Emitting Electrochemical Processes, Part 1 | |||
• Light Emitting Electrochemical Processes, Part 2 | |||
• What is a Light Emitting Diode? | |||
• The first OLEDs | |||
• Organic/Organic’ Heterojunctions in OLEDs | |||
• OLED Charge Mobilities | |||
• Organic Heterojunctions | |||
• 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 2 | |||
J) Introduction to Organic Solar Cells (JLB) | |||
• Introduction | |||
• Energy Needs | |||
• Solar Technologies | |||
• Major Processes in Organic Solar Cells | |||
• Materials used in Organic Solar Cells | |||
• Organic Heterojunctions | |||
• Physics of Solar Cells | |||
• Energy vs Charge Transfer at Heterojunctions | |||
K) Organic Photonics Applications in Information Technology | |||
• Modulators for fiber communication | |||
L) Recent results of “state-of-the-art” STC research |
Revision as of 15:08, 20 January 2009
Center for Materials and Devices for Information Technology Research A) Center Overview - “Photonic Integration--Size, Weight, and Power Savings and Dramatic Performance, Enhancements and Cost Reduction for Computing, Telecommunications, Transportation, Health Care, and Defense" – Larry Dalton
B) Basics of light– (JLB) • Propagation of Light • Reflection and Refraction • Total Internal Reflection • Dispersion and Scattering of Light • Diffraction of Light
C) Luminescence and Color – (Kippelen) • Luminescence Phenomena • Introduction to Electromagnetic Radiation • Electromagnetic Spectrum • Color • Chromaticity Diagram • Additive and Substractive Color Mixing
D) Molecular Orbitals – (Marder & JLB) • Atomic Orbitals and Nodes • Electronegativity and Bonding between Atoms • Sigma and pi orbitals • Electronic Coupling between Orbitals • Donors and acceptors
E) Electronic Band Structure of Organic Materials – (JLB) o Introduction • Electronic Structure of Hydrogen • The Polyene Series, Part 1 • The Polyene Series, Part 2 • Bloch's Theorem, Part 1 • Bloch's Theorem, Part 2 • Electrical Properties • Electronic States versus Molecular Levels
F) Absorption and Emission of Light – (JLB & Marder) • Introduction • Changes in Absorption Spectra • Jablonski diagram • Absorption, Internal Conversion, Fluorescence, Intersystem Crossing, and Phosphorescence Processes • Spectroscopy, Extinction Coefficient, Oscillator Strength, Transition Dipole Moment • Absorption and Emission • Photochromism • Interchain Interactions
G) Transport Properties– (JLB) • Introduction • Band Regime versus Hopping Regime • Electronic Coupling • Model Calculations of Electronic Coupling, Part 1 • Model Calculations of Electronic Coupling, Part 2 • Small Electronic Couplings and Marcus Theory • Intramolecular Reorganization Energy • Electron-Phonon Coupling
H) Liquid Crystals and Displays – (Marder) • Introduction to Liquid Crystals • Double Refraction and Birefringence • History of Liquid Crystals • Director – Degrees of order in Liquid Crystals • Classification and Examples of Liquid Crystals, Part 1 • Classification and Examples of Liquid Crystals, Part 2 • Alignment • Freederickz Transition and Dielectric Anisotropy • Liquid Crystal Displays
I) OLEDs – (Armstrong) • Preface • Light Emitting Electrochemical Processes, Part 1 • Light Emitting Electrochemical Processes, Part 2 • What is a Light Emitting Diode? • The first OLEDs • Organic/Organic’ Heterojunctions in OLEDs • OLED Charge Mobilities • Organic Heterojunctions • 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 2
J) Introduction to Organic Solar Cells (JLB) • Introduction • Energy Needs • Solar Technologies • Major Processes in Organic Solar Cells • Materials used in Organic Solar Cells • Organic Heterojunctions • Physics of Solar Cells • Energy vs Charge Transfer at Heterojunctions
K) Organic Photonics Applications in Information Technology • Modulators for fiber communication
L) Recent results of “state-of-the-art” STC research