Designing emissive conjugated polymers with small optical gaps: a step towards organic polymeric infrared lasers

TL;DR

This paper demonstrates that chemical modifications to conjugated polymers can reduce their optical gaps and improve photoluminescence, paving the way for designing organic infrared lasers.

Contribution

It introduces a novel chemical modification strategy to lower optical gaps and enhance photoluminescence in conjugated polymers for infrared laser applications.

Findings

Reduced optical gaps in modified polymers

Enhanced photoluminescence properties

Potential for organic infrared laser development

Abstract

We show that chemical modification of the trans-polyacetylene structure that involves substitution of the backbone hydrogen atoms with conjugated side groups, leads to reduction of the backbone bond alternation as well as screening of the effective Coulomb interaction. Consequently the optical gap of the substituted material is smaller than the parent polyene with the same backbone length, and the excited state ordering is conducive to efficient photoluminescence. The design of organic polymeric infrared lasers, in the ideal long chain limit, thereby becomes possible.