Polarity Does Not Matter: Molecular Weight Reverses the Photoisomerization-Induced Phase Separation of an Azobenzene-Bearing Polymer

The non-canonical photoisomerization-induced phase separation of an azobenzene-bearing polymer is found. The polymer composed of acrylate-based azobenzene (AzoAA) and N,N-dimethylacrylamide (DMA), namely poly(AzoAA-r-DMA), phase separates under visible light-induced cis-to-trans isomerization at high molecular weight, whereas the phase separation is realized under UV light-induced trans-to-cis isomerization at low molecular weight. Conventionally, the origin of photoisomerization-induced phase separation is believed to arise from the difference in polarity between the apolar trans and polar cis states; thereby the direction of phase changes, either to separate or dissolute, is uniquely determined by the polarity changes during the isomerization of azobenzene. Contrary to this common perception, the poly(AzoAA-r-DMA) in this study phase separates through both trans and cis isomerization, depending on the molecular weight. The non-canonical phase separation of poly(AzoAA-r-DMA) reported herein suggests that molecular weight plays a significant role in determining the phase behavior of azobenzene-bearing polymers. This study provides a platform for the development of spatial-temporally controlled delivery vehicles and microreactors.

Automated summary

The non-canonical photoisomerization-induced phase separation of an azobenzene-bearing polymer is observed, where the phase separation occurs under different isomerization conditions depending on the molecular weight. Contrary to common perception, the phase separation of this polymer is not solely determined by polarity changes during isomerization, suggesting the significant role of molecular weight in the phase behavior of azobenzene-bearing polymers.