Chrysoidine G

Ensure Compliance with High-Purity Chrysoidine G Reference Materials

Chrysoidine G, also known as Basic Orange 2, is a synthetic azo dye widely used in the textile industry and biological laboratories. Given its potential health and environmental impacts, accurate residue analysis is crucial. HPC Standards GmbH provides high-purity reference materials for Chrysoidine G, enabling laboratories to meet stringent regulatory standards. Our products ensure precise and reliable measurements, safeguarding both human health and the environment. Trust HPC Standards GmbH for your analytical needs in food and environmental analysis.

Product	Catalog No./ CAS No.	Quantity	Price
13C6-Chrysoidine G	692729 1450792-07-0	1X5MG	On request
13C6-Chrysoidine G solution Concentration: 100 µg/ml Solvent: Acetonitrile	692730 1450792-07-0	1X1ML	On request
Chrysoidine G	689050 532-82-1	1X50MG	Please log in.

High-purity reference materials for accurate residue analysis

Overview

Chrysoidine G is a synthetic azo dye used primarily in the textile industry for dyeing fabrics. It is also known as Basic Orange 2 and has applications in biological staining and as a pH indicator. Its chemical formula is C12H12ClN3.

Uses

Chrysoidine G is widely used in the textile industry for dyeing wool, silk, and nylon fabrics. It is also employed in biological laboratories for staining purposes and as a pH indicator in various chemical processes.

Regulatory

The use of Chrysoidine G is subject to regulatory scrutiny due to its potential health and environmental impacts. Various countries have established guidelines and limits for its use, especially in consumer products.

Monitoring

Monitoring of Chrysoidine G residues is essential for ensuring compliance with regulatory standards. Laboratories utilize high-purity reference materials to accurately measure the presence of this compound in various samples.

Health Impact

Chrysoidine G has been associated with several health risks, particularly due to its potential carcinogenic properties. Prolonged exposure can lead to adverse health effects, necessitating stringent safety measures.

Human Toxicity

Exposure to Chrysoidine G can cause skin irritation, respiratory issues, and other toxic effects. It is classified as a potential carcinogen, and its use is regulated to minimize human exposure.

Environmental Impact

Chrysoidine G can have significant environmental impacts, particularly in aquatic ecosystems. Its persistence and potential to bioaccumulate make it a concern for environmental monitoring.

Effects on Wildlife

Wildlife exposed to Chrysoidine G can suffer from various toxic effects, including reproductive and developmental issues. Its presence in water bodies can disrupt aquatic life and ecosystems.

Safety Measures

To mitigate the risks associated with Chrysoidine G, proper safety measures must be implemented. This includes the use of protective equipment, proper ventilation, and adherence to regulatory guidelines for handling and disposal.

Regulation

Chrysoidine G is regulated by various international and national agencies. These regulations aim to limit its use and ensure that industries comply with safety standards to protect human health and the environment.

Analytical Standards

High-purity reference materials for Chrysoidine G are crucial for accurate residue analysis. Laboratories rely on these standards to ensure the precision and reliability of their analytical results, helping to maintain compliance with regulatory limits.