Rhodamine B hydrazide

Formal Name
2-amino-3′,6′bis(diethylamino)-spiro[1H-isoindole-1,9′-[9H]xanthen]-3(2H)-one
CAS Number
74317-53-6
Molecular Formula
C28H32N4O2
Formula Weight
456.6
Purity
≥98%
Emission
578 nm
Excitation
510 nm
Formulation
A crystalline solid
Solubility
  • DMF: 30 mg/ml
  • DMF:PBS(pH7.2) (1:2): 0.33 mg/ml
  • DMSO: 20 mg/ml
  • Ethanol: 0.1 mg/ml
λmax
239, 274, 314 nm
Shipping & Storage Information
Storage
-20°C
Shipping
Wet ice in continental US; may vary elsewhere
Stability
≥ 2 years
Category:

Description

Unveiling the Marvels of Buy Rhodamine B Hydrazide: A Fluorescent Wonder in Chemical Research

In the realm of chemical research, the pursuit of novel compounds with unique properties and applications is an ongoing quest. One such marvel that has captivated the interest of researchers is Buy Rhodamine B Hydrazide, a fluorescent dye that has found its niche in various scientific domains. In this blog, we will delve into the intricacies of Rhodamine B Hydrazide, exploring its synthesis, properties, and diverse applications in chemistry.

Synthesis:

Rhodamine B Hydrazide is derived from the well-known Rhodamine B dye, which belongs to the xanthene class of dyes. The synthesis of Rhodamine B Hydrazide involves the introduction of a hydrazide group to the parent Rhodamine B molecule. This process often requires careful control of reaction conditions and precise synthetic techniques.

Properties:

Fluorescent Nature:

Rhodamine B Hydrazide owes its popularity to its fluorescent properties. When exposed to specific wavelengths of light, it emits a vibrant fluorescence, making it an ideal candidate for various applications in biology and chemistry.

pH Sensitivity:

One of the unique features of Rhodamine B Hydrazide is its sensitivity to pH changes. This property has been harnessed in pH-responsive probes, enabling researchers to monitor and visualize pH variations in biological systems.

Chemical Stability:

Rhodamine B Hydrazide exhibits good chemical stability, enhancing its utility in a range of applications. Its stability allows for prolonged observations and experiments, making it a reliable tool in research settings.

Applications:

  1. Cell Imaging: The fluorescent nature of Rhodamine B Hydrazide makes it an excellent candidate for cell imaging studies. Researchers leverage its properties to label and track specific cellular components, gaining insights into cellular processes and structures.
  2. pH Sensors: The pH sensitivity of Rhodamine B Hydrazide has been harnessed in the development of pH sensors. These sensors find applications in environmental monitoring, industrial processes, and biological studies where pH variations are crucial indicators.
  3. Biosensing: Rhodamine B Hydrazide has been employed in biosensing applications. Its ability to bind selectively to certain biomolecules has been exploited for the detection and quantification of specific analytes, ranging from proteins to nucleic acids.
  4. Chemical Analysis: In analytical chemistry, Buy Rhodamine B Hydrazide serves as a valuable tool for chemical analysis and detection. Its fluorescence properties enable sensitive and specific detection of target analytes in complex mixtures.

Conclusion:

Rhodamine B Hydrazide stands as a testament to the innovative strides in chemical research. Its synthesis, coupled with unique fluorescent and pH-sensitive properties, has paved the way for its diverse applications in cell imaging, biosensing, and chemical analysis. As researchers continue to unravel the potential of this compound, the legacy of Buy Rhodamine B Hydrazide in the scientific community is set to endure, contributing to advancements in various fields.

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