Articles
Semiconducting Polymer LEDs, Materials Today (2002)
Technologies based on organic semiconductors may answer the increasing demands that consumers make in the...
Transient Response of Passive Matrix Polymer LED Displays (with K. Erickson and G. Yu), Synthetic Metals (2001)
Video displays based on polymer and organic displays require high resolution and high data rates....
Method to Optimize Polymer Film Spin Coating for Polymer LED Displays (with M. Cecchi and H. Smith), Synthetic Metals (2001)
Research and development of displays and image sensors based on semiconducting polymers require design of...
Crosstalk and Image Uniformity in Passive Matrix Polymer LED Displays (with J. Rowe and G. Yu), Synthetic Metals (1999)
Passive matrix displays based on polymer and organic light-emitting diodes suffer from crosstalk, when the...
Crosstalk in Passive Matrix Polymer LED Displays, Synthetic Metals (1998)
Passive matrix displays based on polymer and organic light-emitting diodes (LEDs) suffer from crosstalk, the...
Conference Proceedings
Teaching Sustainability in Electrical Engineering Lab Courses, Sustainability Conference 2008 (2008)
Swanton Pacific, a unique educational field facility, presents on using their land to study the...
Interdisciplinary Team Teaching: Lessons for Engineering Instructors from a Capstone Course in Environmental Studies (with Emmit B. Evans, Randall Knight, and Thomas Ruehr), Proceedings of the 2007 ASEE Annual Conference & Exposition: Honolulu, Hawaii (2007)
The capstone course teaches students to analyze global environmental issues, resources, and human activities with...
Web-Based Design and Analysis Projects for a Junior Level Integrated Circuits Course, Proceedings of the 2007 ASEE Annual Conference & Exposition: Honolulu, Hawaii (2007)
Just as the electronics industry can increase productivity with web-based tools, web-based design offers opportunities...
A Senior Level Polymer Electronics Course: Unique Instruction or Just Low Cost?, Proceedings of the 2005 ASEE Annual Conference & Exposition: Portland, Oregon (2005)
After progressing from research laboratories to factories to the market, semiconducting polymers now appear in...
Illuminating Electronics Problem Solving With The Cal Poly MoHAT Technique (with Fred W. DePiero and Michael Borland), Proceedings of the 32nd ASEE/IEEE Frontiers in Education Conference: Boston, MA (2002)
This paper describes a Cal Poly version of circuit analysis to assist both students and...
Patents
Visible Light Emitting Diodes Fabricated From Soluble Semiconducting Polymers (with Alan J. Heeger), United States Patent Number: 6,878,974 B2 (2005)
Visible light LEDs are produced having a layer of conjugated polymer which is cast directly...
Electroluminescent Display Device Including Active Polymer Layer (with Aemilianus G. J. Staring and Karel E. Kuijk), United States Patent Number: 6,014,119 (2000)
Control device for an electroluminescent display device, comprising an active layer of a semiconducting polymer...
Electroluminescent Device Comprising a Transparent Structured Electrode Layer Made From a Conductive Polymer (with Aemilianus G. J. Staring), United States Patent Number: 5,986,400 (1999)
A description is given of an electroluminescent (EL) device (1) composed of polymeric LEDs comprising...
Electroluminescent Illumination System (with Dirk J. Broer, Antonius H.J. Venhuizen, and Christianne R.M. De Witz), United States Patent Number: 5,928,801 (1999)
An illumination system has an active layer which includes an electroluminescent material, the active layer...
Fabrication of Visible Light Emitting Diodes Soluble Semiconducting Polymers (with Alan J. Heeger), United States Patent Number: 5,869,350 (1999)
Visible light LEDs are produced having a layer of conjugated polymer which is cast directly...