Organic and Transition Metal Complex Superconductors and Redox Active Conductive Polymers.
Abstract
We have developed and characterized a broad class of synthetic metals and electroactive polymers. Refer to final technical report for AASERT grant F49620-93-1-0322 for an overview of advances made in transition metal complexes as radical anion components in synthetic metals. We have developed a new family of electrochromic polymers utilizing 3,4-ethylenedioxythiophene as an oxidatively polymerizable moiety. These polymers allow Band Gap Engineering such that the full visible spectrum is attained. These polymers have been incorporated into high contrast, dual polymer electrochromic devices which exhibit a high degree of switching stability (more than 10,000 switches easily attained). Luminescent polyphenylenes have been synthesized having both polar and ionic functionality. These have been incorporated into blue-emitting EL devices using electrostatic deposition methods. A number of external transitions with industry, Air Force personnel, and academic laboratories are underway researching applications for these polymers in electrochromic and electroluminescent devices, along with possibilities as corrosion protection coatings.
Document Details
- Document Type
- Technical Report
- Publication Date
- Oct 07, 1996
- Accession Number
- ADA317222
Entities
People
- John R. Reynolds
Organizations
- University of Florida