A new application of Rhodamine 200 B (Sulfo Rhodamine B)

The wavclcngth of the rhodamine B lactonc ftuoresccna: is strongly dependent on solvent polarity, indicating an incxwsc in dipole moment of about 25 debye on excitation. In mcthylcne chloride and acctonitrile the fluorcscenrr of the quinoid form is also observed, although only the lactonc form is cx

## Abstract __We report here on the interaction of the fluorescent dye rhodamine B (RB) with single‐walled carbon nanotubes (SWCNTs). We observe that SWCNTs statically quench the fluorescence of RB by forming a stable ground state complex. Careful spectroscopic analysis indicates that the complex f

## Abstract The fluorophore rhodamine B is often used in biological assays. It is inexpensive, robust under a variety of reaction conditions, can be covalently linked to bioactive molecules, and has suitable spectral properties in terms of absorption and fluorescence wavelength. Nonetheless, there

Deactivation processes of Rhodamine B (RB) in water and interacting with silver sols were studied by using conventional fluorescence, laser-induced fluorescence, and pulsed laser photoacoustics. Results showed that the emission efficiencies, absorption cross sections, and nonradiative deactivation p