Synthesis and photochromic properties of novel pyridine-containing diarylethenes

Three isomeric pyridine-containing diarylethenes were synthesized to study the effects of nitrogen atom position (ortho, para, meta) on their photochromic properties. Among these diarylethenes, the example with the nitrogen atom at the ortho-position of pyridine displayed the largest absorption maximum and molar absorption coefficients. The cyclization quantum yields increased in order of para < meta < ortho, whereas their cycloreversion quantum yields decreased in order of para > meta > ortho. Compared to the diarylethene with terminal phenyl ring, those with a terminal pyridine showed enhanced cyclization quantum yields and emission intensities. Moreover, these pyridine-containing diarylethenes exhibited multi-addressable switching behavior under the stimulation of both proton and light. Addition of trifluoroacetic acid to the solutions of the diarylethenes resulted in notable color change, and their N-protonated forms also possessed excellent photochromism. These results indicated that the nitrogen atom position played a pivotal role in the process of photoisomerization of the diarylethenes.

Three isomeric pyridine-containing diarylethenes were efficiently synthesized. These novel diarylethenes exhibited dual-control characteristics under both proton and light stimuli, and their photochromic properties were significantly affected by the position of nitrogen atom in pyridine ring.Figure optionsDownload as PowerPoint slideHighlights
► Isomeric pyridine-containing diarylethenes were synthesized.
► They exhibited dual-control characteristics by proton and light stimuli.
► The nitrogen atom position played a pivotal role.