423-62-1 | Perfluorodecyl iodide

CAS:423-62-1 | Perfluorodecyl iodide ,Description

Henicosafluoro-10-iododecane is a biochemical.

Scientific Research Applications

Environmental Fate and Biodegradability

Polyfluoroalkyl chemicals, including Perfluorodecyl iodide, have seen extensive use across numerous industries due to their stability and resistance to degradation. Environmental studies have highlighted the microbial degradation pathways of these compounds, transforming them into perfluorocarboxylic acids (PFCAs) and perfluorosulfonic acids (PFSAs), substances under scrutiny for their persistence and toxicity. This research underscores the environmental resilience of perfluorinated compounds and the complexities involved in their biodegradation (Liu & Avendaño, 2013).

Developmental Toxicity

The developmental toxicity of perfluoroalkyl acids, a category inclusive of derivatives from Perfluorodecyl iodide, has been a significant concern. These compounds, specifically perfluorooctane sulfonate (PFOS) and perfluorooctanoic acid (PFOA), have been investigated for their potential to cause developmental disorders in mammals. This area of research is crucial for understanding the broader implications of exposure to perfluorinated compounds on human health and development (Lau, Butenhoff, & Rogers, 2004).

Risk Assessment and Management

The regulation and risk management of perfluorinated compounds, including Perfluorodecyl iodide derivatives, have become a focal point of environmental policy. Research in this area aims to establish safe exposure levels, understand the environmental distribution of these compounds, and assess their human health impacts. Such studies are critical for developing effective strategies to mitigate the risks posed by these widespread contaminants (Zushi, Hogarh, & Masunaga, 2012).

Treatment and Removal Technologies

Addressing the persistence of perfluorinated compounds in the environment, significant efforts have been dedicated to developing technologies for their removal from water sources. This includes advancements in adsorption methods, such as activated carbon and novel materials, which show promise for effectively reducing concentrations of these pollutants in water. Understanding the mechanisms behind these technologies is essential for their optimization and implementation in pollution control strategies (Espana, Mallavarapu, Naidu, & Naidu, 2015).

Human Health Risks

The potential human health risks associated with exposure to perfluorinated compounds, such as Perfluorodecyl iodide, are a growing area of concern. Studies exploring the toxicological impacts of these substances indicate significant effects on liver function, immune response, and reproductive health. These findings are instrumental in guiding public health recommendations and regulatory standards to protect human health from the adverse effects of these chemicals (Zeng et al., 2019).

More Information