Molecular structure of Acid green 50, CAS Number: 3087-16-9
Acid green 50 (CAS 3087-16-9)
Alternate Names:
Wool Green S; Green S; Lissamine Green B; Green 5; Acid Leather Green S; Acid Brilliant Green BS; Food Green S; Calocid Green S
Application:
Acid green 50 is an anionic dye used in labeling cells for molecular analysis
CAS Number:
3087-16-9
Molecular Weight:
576.62
Molecular Formula:
C27H25N2O7S2•Na
For Research Use Only. Not Intended for Diagnostic or Therapeutic Use.
* Refer to Certificate of Analysis for lot specific data.
QUICK LINKS
Ordering Information
Description
Technical Information
Safety Information
SDS & Certificate of Analysis
Acid Green 50 is an anionic dye often used in textiles. Research studies investigating the removal of Acid Green 50 by anodic oxidation and electrocoagulation have reported that these two methods may be useful for the removal of this dye in wastewater treatment studies. Dye content 50%.
Other available Acid Green dyes include:
Acid Green 25 (sc-2127572)
Acid Green 27 (sc-214474)
Acid green 50 (CAS 3087-16-9) References
- Removal of acid green dye 50 from wastewater by anodic oxidation and electrocoagulation--a comparative study. | el-Ashtoukhy, ES. and Amin, NK. 2010. J Hazard Mater. 179: 113-9. PMID: 20417030
- Interactions of two food colourants with BSA: Analysis by Debye-Hückel theory. | Li, T., et al. 2016. Food Chem. 211: 198-205. PMID: 27283623
- Data of fluorescence, UV-vis absorption and FTIR spectra for the study of interaction between two food colourants and BSA. | Li, T., et al. 2016. Data Brief. 8: 755-83. PMID: 27508228
- Comparative mutagenicity of two triarylmethane food dyes in Salmonella, Saccharomyces and Drosophila. | Angus, DS., et al. 1981. Food Cosmet Toxicol. 19: 419-24. PMID: 7024063
- High-performance liquid chromatography of acidic dyes on a dynamically modified polystyrene-divinylbenzene packing material with multi-wavelength detection and absorbance ratio characterisation. | White, Peter C. and Ann-Marie Harbin. 1989. Analyst. 114.8: 877-882.
- The use of dye markers as a potential method of reducing pesticide use. | Brown, Anna, et al. 2003. Forestry. 76.4: 371-384.
- H2O2-assisted TiO2 generation during the photoelectrocatalytic process to decompose the acid green textile dye by Fenton reaction. | Ramírez, Rebecca Jaimes, et al. 2015. Journal of Photochemistry and Photobiology A: Chemistry. 305: 51-59.
- Fenton process coupled to ultrasound and UV light irradiation for the oxidation of a model pollutant. | Barrera-Salgado, Karen E., et al. 2016. Journal of Chemistry. 2016.1: 4262530.
- Preparation and characterization of acid green 50 dye–PVA composite films and their optical power limiting characteristics. | Hemalatha, S. and T. Geethakrishnan. 2024. Journal of Optics. 53.1: 10-17.
Ordering Information
| Product Name | Catalog # | UNIT | Price | Qty | FAVORITES | |
Acid green 50, 25 g | sc-214475 | 25 g | $44.00 |