Controllable Blue Shift and Enhancement Emission during the Gradually Increasing Molecular Weight of Polyacrylamide.

Nonconventional luminescent polymers have become research hotspots due to their advantages such as persistent room temperature phosphorescence (p‐RTP) emission and strong film‐forming properties. It is proven that the molecular weight (MW) of such luminescent polymers has a significant impact on their emission over a large range, generally with a red shift as the MW increases. Herein, four controllable MW polyacrylamides are prepared via reversible addition‐fragmentation chain transfer polymerization (RAFT), and their photoluminescence quantum yield and p‐RTP lifetimes gradually increase with the increasing MW. The emission of p‐RTP gradually shifts blue with increasing MW, which is likely due to the gradually changing interactions between the electron‐rich portion in RAFT reagent and the increasing acrylamide (AM) units in the molecular chain. These can be reasonably explained through small angle X‐ray scattering, the clustering‐triggered emission (CTE) mechanism, and supported by theoretical calculations. Powder with controllable p‐RTP capability has the potential for strategic anti‐counterfeiting encryption. The above results not only promote the development of the CTE mechanism toward more precise explanations but also provide new ideas for the preparation of nonconventional luminescent polymers with controllable p‐RTP emission performance. [ABSTRACT FROM AUTHOR]