Superacid-resistant macrocyclic BODIPYs
Keita Watanabe, Gentaro Honda, Yuki Terauchi, Shunsuke Mamiya, Yuya Inaba, Tasuku Nakajima, Jian Ping Gong, Yusaku Yamaguchi, Yuichi Kitagawa, Yasuchika Hasegawa, Yuki Ide, Min Gao, Tomoki Yoneda, Yasuhide Inokuma

TL;DR
Researchers created BODIPYs that resist acid degradation, enabling fluorescence in superacidic environments for imaging and sensing.
Contribution
Design of macrocyclic BODIPYs with exceptional acid resistance and stable fluorescence in superacids.
Findings
Macrocyclic BODIPYs retained fluorescence in superacids without deboronation.
They showed high quantum yields and protonation-induced fluorescence switching.
Used as acid indicators for Nafion beads and sulfonylated gels in acidic conditions.
Abstract
Boron-dipyrromethenes (BODIPYs) are versatile fluorophores with intense fluorescence and broad applications in bioimaging and sensing. However, they undergo deboronation under acidic conditions, which causes fluorescence degradation. Herein, we designed exceptionally acid-stable BODIPYs by harnessing the synergistic boron-chelation effect of calix[3]pyrrole-like macrocycles. We show that their characteristic optical properties are retained in strongly acidic media, including superacids, without undergoing deboronation. Macrocyclic BODIPYs exhibit sharp absorption and protonation-induced fluorescence switching, with quantum yields of up to 0.90 and narrow Stokes shifts. Notably, no deboronation was observed even in non-diluted fluorosulfuric acid, and visible fluorescence was sustained for over a day. Beyond their unusual acid resistance, the macrocyclic BODIPYs had higher thermal- and…
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Taxonomy
TopicsLuminescence and Fluorescent Materials · Molecular Sensors and Ion Detection · Nanoplatforms for cancer theranostics
