DOI: 10.2174/0113852728444927260616202130 ISSN: 1385-2728

Triphenylamine-Based Fluorescent Molecular Rotors (FMRs): A Mini Review

Archana Ashok Bhagwat, Sulochana Bhalekar

Fluorescence molecular rotors (FMRs) are responsive to their surroundings; changes in the environment cause molecules to rotate differently, which mostly affects the intensity of fluorescence. As a result, these rotors are very useful for biological process sensing, monitoring, and food analysis. Triphenylamine is a popular choice for creating fluorescence molecular rotors (FMRs) because of its structure, which consists of three phenyl rings joined to a nitrogen atom. This allows for unrestricted rotation and makes it an efficient electron donor. This brief review highlights the various characteristics and functions of triphenylamine-based fluorescence molecular rotors (FMRs) by concentrating on recent research in this area.

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