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Higenamine Hydrochloride Your Essential High-Purity Reference Material
Ensure precise and reliable residue analysis with our high-purity Higenamine Hydrochloride. Ideal for laboratories focused on food and environmental testing, our reference materials meet stringent international quality standards, helping you comply with regulatory limits effortlessly. Trust HPC Standards GmbH for unparalleled accuracy in your analytical applications.
Product | Catalog No./ CAS No. | Quantity | Price | |
---|---|---|---|---|
691007 | 1X3MG | |||
D4-Higenamine hydrochloride solution | 691075 | 1X1ML | ||
690475 | 1X5MG | |||
Higenamine hydrochloride solution | 690490 | 1X1ML |
High-purity reference materials for accurate residue analysis.
Higenamine hydrochloride is a chemical compound used primarily in the field of analytical chemistry. It is a high-purity reference material essential for laboratories conducting food and environmental analysis to ensure compliance with regulatory limits.
Higenamine is a naturally occurring compound found in several plants, including Nandina domestica and Aconitum carmichaelii. It has been studied for its potential pharmacological effects, including cardiovascular and bronchodilatory activities.
Higenamine hydrochloride is used in various analytical applications, particularly in residue analysis. It serves as a reference material for the accurate quantification and identification of residues in food and environmental samples.
Additionally, higenamine is investigated for its potential therapeutic applications, though its primary use in the context of our products is for analytical standards.
Regulatory bodies require accurate and reliable reference materials for the analysis of residues in food and environmental samples. Higenamine hydrochloride meets these stringent requirements, ensuring that laboratories can comply with international standards and regulations.
Our reference materials are tested according to international quality requirements and meet the highest industrial standards.
Continuous monitoring of residues in food and the environment is essential for public health and safety. Higenamine hydrochloride, as a high-purity reference material, plays a crucial role in this monitoring process, providing accurate data for regulatory compliance.
Higenamine hydrochloride's health impact is primarily studied in the context of its pharmacological effects. It has shown potential as a cardiovascular agent and bronchodilator. However, its use as a reference material focuses on its role in residue analysis rather than therapeutic applications.
Studies on higenamine's toxicity in humans are limited. As with any chemical compound, proper handling and safety measures should be observed in laboratory settings to prevent any adverse effects.
The environmental impact of higenamine hydrochloride is primarily related to its use in analytical applications. Proper disposal and handling are essential to minimize any potential environmental risks.
There is limited information on the effects of higenamine hydrochloride on wildlife. As a reference material, its primary concern is its accurate measurement and analysis in environmental samples to ensure compliance with regulatory standards.
When handling higenamine hydrochloride in laboratory settings, it is essential to follow standard safety protocols. This includes using appropriate personal protective equipment (PPE), working in well-ventilated areas, and following proper disposal procedures for chemical waste.
Higenamine hydrochloride is subject to various regulatory requirements, particularly in the context of residue analysis in food and environmental samples. Our reference materials comply with these regulations, ensuring accurate and reliable results for laboratories.
As a high-purity reference material, higenamine hydrochloride is essential for laboratories conducting residue analysis. It provides the accuracy and reliability needed to meet international quality requirements and regulatory standards.
Our products are tested according to stringent quality requirements, ensuring they meet the highest industrial standards for analytical reference materials.