Ugilec 141: A Deep Dive into its Properties and Research Applications
Exploring the characteristics and significance of CAS 111483-93-3 in environmental and toxicological research.
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Ugilec 141
Ugilec 141 is a crucial organochlorine compound with significant applications as a flame retardant. Its research value extends into environmental science and toxicology, where its persistence, bioaccumulation potential, and ecological impact are extensively studied.
- The environmental impact of Ugilec 141 is a focal point, examining its distribution, especially in aquatic ecosystems, and its long-term effects on wildlife.
- Researchers investigate Ugilec 141 toxicology research to understand its potential hazards and mechanisms of action.
- The development of precise analytical methods for Ugilec 141 is essential for monitoring its presence in environmental samples.
- As a known substance, it serves as a critical reference point in studies comparing the safety and efficacy of newer flame retardants, highlighting the importance of chemical persistence and bioaccumulation studies.
Key Advantages
Environmental Research Benchmark
Ugilec 141 serves as a benchmark for evaluating the environmental persistence and bioaccumulation potential of organochlorine compounds.
Toxicological Insight
Provides valuable insights into the toxicological profiles of organochlorines, aiding in risk assessment for similar substances.
Analytical Standard Development
Its well-defined properties make it an ideal compound for developing and validating analytical methods for environmental monitoring.
Key Applications
Flame Retardancy Studies
Investigating its efficacy as a flame retardant and comparing it with emerging alternatives. Understanding the role of Ugilec 141 flame retardant properties.
Environmental Monitoring
Development and application of analytical techniques to detect and quantify Ugilec 141 in soil, water, and biota, crucial for environmental analysis.
Toxicological Assessments
Used in studies to assess the toxic effects and ecological risks associated with organochlorine compounds, contributing to Ugilec 141 toxicology research.
Chemical Degradation Research
Research into degradation pathways and remediation strategies for persistent organic pollutants, including the study of organochlorine degradation techniques.