AUTHOR=Wang Zexin , Li Renfu , Chen Li , Zhai Xin , Liu Wei , Lin Xiang , Chen Liwei , Chen Nannan , Sun Shitao , Li Zhenli , Hao Jinle , Chen Xueyuan , Lin Bin , Xie Lijun 

TITLE=Precise Molecular Design of a Pair of New Regioisomerized Fluorophores With Opposite Fluorescent Properties

JOURNAL=Frontiers in Chemistry

VOLUME=9

YEAR=2022

URL=https://www.frontiersin.org/journals/chemistry/articles/10.3389/fchem.2021.823519

DOI=10.3389/fchem.2021.823519

ISSN=2296-2646

ABSTRACT=<p>Aggregation-induced emission (AIE) has attracted much attention in the past 2 decades. To develop novel AIE-active materials, ACQ-to-AIE transformation <italic>via</italic> regioisomerization is one of the most straightforward method. However, most of the reported ACQ-to-AIE transformations are achieved by migrating bulky units. In this work, a facile conversion was realized by migrating a small pyrrolidinyl group from <italic>para</italic>- to <italic>ortho</italic>-position on the rofecoxib scaffold. As a result, a pair of new isomers named <bold>MOX2</bold> and <bold>MOX4</bold> exhibited AIE behavior and ACQ activity, respectively. Moreover, <bold>MOX2</bold> also showed solvatochromic, mechanochromic, and acidochromic properties with reversible multi-stimulus behavior. Single crystal X-ray analysis of <bold>MOX2</bold> revealed that the molecular conformation and its packing mode were responsible for the AIE emission behavior. Further investigation indicated that <bold>MOX2</bold> showed high lipid droplets staining selectivity. Taken together, the current work not only provides a new design philosophy for achieving ACQ-to-AIE conversion by migrating a small pyrrolidinyl group but also presents a promising candidate <bold>MOX2</bold> for potential applications such as in security ink, optical recording and biological applications.</p>