Em 620-750 nm Red

Oxonol VI is a fascinating dye known for its strong absorption and emission characteristics in the 620-750 nm range. Its unique structure allows for effective interaction with lipid membranes, leading to distinct changes in fluorescence based on membrane potential. This compound exhibits remarkable sensitivity to environmental factors, such as pH and ionic strength, which can modulate its optical properties. Additionally, Oxonol VI's behavior in complex biological systems highlights its role in studying membrane dynamics and cellular processes.

Brilliant Cresyl Blue is a synthetic dye characterized by its vibrant color and distinct spectral properties within the 620-750 nm range. Its unique molecular structure facilitates specific interactions with proteins and nucleic acids, influencing its fluorescence behavior. The dye exhibits notable stability under varying conditions, allowing for consistent optical responses. Additionally, its ability to form aggregates in solution can alter its photophysical properties, making it a subject of interest in studies of molecular interactions and dynamics.

4-(2-Carboxyphenyl)-7-diethylamino-2-(7-diethylamino-2-oxochroman-3-yl)-chromylium perchlorate is a complex chromophore exhibiting strong absorption and emission characteristics in the 620-750 nm range. Its intricate structure promotes unique charge transfer interactions, enhancing its photostability and fluorescence efficiency. The compound's ability to undergo conformational changes in response to environmental factors leads to varied optical behaviors, making it a fascinating subject for exploring light-matter interactions and energy transfer mechanisms.

Tris(4,7-diphenyl-1,10-phenanthroline)ruthenium(II) bis(perchlorate) is a luminescent complex characterized by its robust emission in the 620-750 nm range. The unique arrangement of phenanthroline ligands facilitates strong metal-to-ligand charge transfer, resulting in enhanced photophysical properties. Its intricate electronic structure allows for efficient energy transfer processes, while the compound's stability under various conditions makes it an intriguing candidate for studying excited-state dynamics and coordination chemistry.

Fluorescent red 633 exhibits remarkable photostability and a high quantum yield, making it a standout in the realm of fluorescent dyes. Its unique conjugated structure promotes efficient energy absorption and emission within the 620-750 nm range. The dye's strong intermolecular interactions enhance its brightness and reduce photobleaching, while its ability to form aggregates can lead to distinct spectral shifts. This behavior is pivotal in applications requiring precise optical characteristics and reliable performance.

Fluorescent red 647 reactive is characterized by its exceptional spectral properties, particularly its ability to emit light in the 620-750 nm range. This dye features a robust conjugated system that facilitates rapid electron transfer, enhancing its fluorescence efficiency. Its reactivity as an acid halide allows for selective coupling with various biomolecules, leading to unique conjugation pathways. Additionally, its strong dipole moments contribute to significant solvent interactions, influencing its emission profile and stability under varying conditions.

Fluorescent red 731 reactive exhibits remarkable photophysical characteristics, particularly its emission spectrum spanning 620-750 nm. This compound possesses a highly conjugated structure that promotes efficient energy transfer, resulting in enhanced fluorescence. As an acid halide, it engages in specific nucleophilic reactions, allowing for tailored modifications of target molecules. Its unique steric and electronic properties also influence solubility and aggregation behavior, impacting its overall reactivity and stability in diverse environments.

CruzFluor sm™ 5 amine is a distinctive fluorescent compound characterized by its emission range of 620-750 nm. Its unique molecular architecture facilitates strong intermolecular interactions, enhancing its photostability and fluorescence intensity. The compound's reactivity as an acid halide allows for selective coupling reactions, enabling the formation of diverse derivatives. Additionally, its specific electronic properties contribute to unique solvation dynamics, influencing its behavior in various chemical environments.

CruzFluor sm™ 5 succinimidyl ester is a specialized fluorescent reagent exhibiting emission in the 620-750 nm range. Its unique ester functionality promotes efficient conjugation with amines, leading to stable adduct formation. The compound's distinct electronic structure enhances its light absorption characteristics, while its hydrophilic nature influences solubility and interaction with polar solvents. This behavior allows for tailored reactivity in diverse chemical contexts, optimizing its performance in various applications.

CruzFluor sm™ 6 acid is a specialized fluorescent compound characterized by its emission in the 620-750 nm range. This acid halide features a unique reactivity profile, facilitating rapid acylation reactions with nucleophiles. Its distinctive electronic configuration contributes to enhanced photostability and fluorescence intensity. Additionally, the compound's polar functional groups promote solubility in various solvents, allowing for versatile interactions in complex chemical environments.