Ferene CAS 79551-14-7 Ferene Disodium Salt Color Developer Top Quality

Product name: Ferene disodium salt 
CAS No: 79551-14-7

Ferene disodium salt is a chemical compound with the CAS number 79551-14-7. It's also known as 5,6-di(2-furyl)-1,2,4-triazine-5′,5′′-disulfonic acid disodium salt.
Ferene disodium salt can be purchased from a number of online retailers, including:
Sigma-Aldrich: Sells Ferene disodium salt for spectrophotometric detection of iron
Biosynth: Sells Ferene disodium salt for pharmaceutical testing
Glentham Life Sciences: Sells Ferene disodium salt and provides chemical data, technical specifications, and SDS documents

Application and Effect
Ferene disodium salt, also known as 3-(2 - Pyridyl)-5,6 - bis(4 - phenylsulfonic acid)-1,2,4 - triazine disodium salt, has the following main applications:
1. Analytical Chemistry
Iron Detection and Quantification
High - sensitivity Colorimetric Reagent: Ferene disodium salt is a highly specific and sensitive reagent for the detection of iron(III) ions in solution. It forms a stable, highly - colored complex with iron(III) under acidic conditions. The resulting complex has a characteristic absorption maximum in the visible region of the electromagnetic spectrum, typically around 593 nm. This property allows for the accurate quantification of iron in various samples, such as environmental water samples, biological fluids (e.g., blood serum), and industrial products.
Selective Detection: Ferene disodium salt shows excellent selectivity for iron(III) over many other metal ions. This means that it can be used to detect iron(III) in the presence of a complex mixture of other metal contaminants without significant interference. For example, in analyzing the iron content in soil samples, which may contain various metal ions like calcium, magnesium, and zinc, Ferene disodium salt can specifically bind to iron(III) and provide a reliable measure of its concentration.
2. Environmental Monitoring
Water Quality Assessment
Determining Iron Levels in Water: In assessing water quality, the determination of iron content is crucial. High levels of iron in drinking water can cause aesthetic problems such as discoloration, an unpleasant taste, and the formation of precipitates. Ferene disodium salt - based assays can be used to quickly and accurately measure iron levels in water sources, including surface water, groundwater, and treated drinking water. This helps in ensuring that water quality standards are met and in detecting potential sources of iron contamination, such as corroded pipes or industrial discharges.
Studying Iron Cycling in Ecosystems
Tracking Iron in Aquatic and Terrestrial Environments: In environmental research, understanding the cycling of iron in ecosystems is important. Ferene disodium salt can be used to analyze iron levels in different environmental compartments, such as sediment, soil, and water. By measuring iron concentrations at different points in time and space, researchers can study how iron is mobilized, transported, and transformed in natural systems. For example, in wetland ecosystems, where iron plays a key role in redox reactions and nutrient cycling, Ferene disodium salt can be used to monitor iron dynamics.
3. Biological and Medical Research
Iron - related Disorder Diagnosis
Analyzing Iron Levels in Biological Fluids: In clinical diagnostics, measuring iron levels in biological fluids like blood serum or urine is essential for the diagnosis of iron - related disorders. Conditions such as iron - deficiency anemia (low iron levels) or hemochromatosis (excess iron levels) can be detected by accurately quantifying iron. Ferene disodium salt - based methods can provide a reliable and cost - effective way to measure iron in these biological samples, helping doctors in making accurate diagnoses and formulating appropriate treatment plans.
Cellular Iron Studies
Monitoring Iron Uptake and Metabolism in Cells: In cell - based research, Ferene disodium salt can be used to study iron uptake, storage, and metabolism in cells. By adding the reagent to cell culture media and analyzing the color change due to the formation of the iron - Ferene complex, researchers can monitor how cells take up iron from the environment, store it, and utilize it for various cellular functions. This can contribute to a better understanding of normal and abnormal cellular iron homeostasis.


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