The incorporation of a small, photochemically controllable diazoketone moiety in fluorescent rhodamine dyes shows great promise in biological imaging.

Article Title Photoinduced Electron Transfer-Triggered g-C3N4\Rhodamine B Sensing System for the Ratiometric Fluorescence Quantitation of Carbendazim ...

Using a similar approach, Grimm, Lavis, and their collaborators have now released the culmination of their years of work: a comprehensive collection of additional rhodamine-based fluorescent dyes ...

SNAP-tag2 boosts live-cell imaging with faster labeling, brighter fluorescence, and better protein tracking across biological systems.

Scientists at HHMI’s Janelia Research Campus have developed a new method for fine-tuning the structure of rhodamine dyes, and can now create a colorful palette of fluorescent molecules.

These rhodamine amides make it possible to obtain highly resolved 3D images of transparent fluorescence-marked samples such as living cells.

As reported in Chem, the breakthrough involves a class of materials termed small-molecule ionic isolation lattices (SMILES). In particular the new research involved the cationic dye rhodamine 3B ...

A new hybrid photonic platform enhances fluorescence signals over 450-fold, enabling ultra-sensitive biosensing at attomolar ...

Scientists have developed a new method for fine-tuning the structure of rhodamine dyes, and can now create a colorful palette of fluorescent molecules.