2015 Roger P. Webb Awards Program

Electrical & Computer Engineering

College of Engineering

Georgia Institute of Technology

The Electrical and Computer Engineering Department in the College of Engineering at Colorado State University welcomes participants to the 2022 LaserNet US Users' Meeting. The meeting will bring together the LaserNetUS user community and facility scientists to discuss a wide-range of experiments, simulations, and diagnostic and measurement techniques related to the fields of high-energy-density and high-intensity laser science.

The initiative includes Colorado State University and its Advanced Beam Laboratory, home of the ALEPH laser. The ALEPH laser, which was developed in-house, is one of the most powerful in the world. August 16, 2022

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Siegel, H.J.

Professor

Electrical and Computer Engineering

Colorado State University

April 16, 2007

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Claire Arneson (left), doctoral student in physics and graduate student research assistant in electrical and computer engineering and Caroline Brustoloni, Electrical & Computer Eng PhD student and graduate student research assistant fabricate the blue PHOLED devices in professors Steve Forrest’s lab at the University of Michigan.

Current OLED screens use very efficient phosphorescent organic LEDs (PHOLEDs) for green and red colors, but the blue pixels are still less efficient fluorescent OLEDs. The problem is, blue PHOLEDs degrade when the high energy charges needed to produce blue light hang around inside the light-emitting material for too long -- they collide and break down the blue-emitting molecules.

Now, by harnessing an effect that encourages those charges to become blue photons faster, and by sharing the burden of light generation across two stacked light emitters, Forrest's team has demonstrated blue PHOLEDs with lifetimes on par with the industry standard for green PHOLEDs, paving the way for their integration into our screens.

April 17, 2025

Photo by Marcin Szczepanski/Lead Multimedia Producer, University of Michigan College of Engineering

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

The Electrical and Computer Engineering Department in the College of Engineering at Colorado State University welcomes participants to the 2022 LaserNet US Users' Meeting. The meeting will bring together the LaserNetUS user community and facility scientists to discuss a wide-range of experiments, simulations, and diagnostic and measurement techniques related to the fields of high-energy-density and high-intensity laser science.

The initiative includes Colorado State University and its Advanced Beam Laboratory, home of the ALEPH laser. The ALEPH laser, which was developed in-house, is one of the most powerful in the world. August 16, 2022

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

Computer Engineering Senior Design Projects spring 2017

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall

society for computer engineering

Claire Arneson (right), doctoral student in physics and graduate student research assistant in electrical and computer engineering and Caroline Brustoloni, Electrical & Computer Eng PhD student and graduate student research assistant fabricate the blue PHOLED devices in professors Steve Forrestâs lab at the University of Michigan.

Current OLED screens use very efficient phosphorescent organic LEDs (PHOLEDs) for green and red colors, but the blue pixels are still less efficient fluorescent OLEDs. The problem is, blue PHOLEDs degrade when the high energy charges needed to produce blue light hang around inside the light-emitting material for too long -- they collide and break down the blue-emitting molecules.

Now, by harnessing an effect that encourages those charges to become blue photons faster, and by sharing the burden of light generation across two stacked light emitters, Forrest's team has demonstrated blue PHOLEDs with lifetimes on par with the industry standard for green PHOLEDs, paving the way for their integration into our screens.

April 17, 2025

Photo by Marcin Szczepanski/Lead Multimedia Producer, University of Michigan College of Engineering

Electrical and Computer Engineering PhD Ceremony

May 13th, 2023

Studio Theater, Cohon University Center

Electrical and Computer Engineering Masters Ceremony

May 12th, 2023

Soldiers and Sailors Memorial Hall