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9-(4-broMophenyl)-10-(naphthalen-2-yl)anthracene, commonly referred to as BroNaphA, is an organic molecule that has gained significant attention in the chemical industry due to its unique properties and potential applications.
BroNaphA is a type of anthracene derivative that has been studied extensively for its fluorescence properties, which make it an attractive material for use in various applications, including biological imaging, sensing, and optical devices.
One of the key concerns in the chemical industry is the safety of chemicals used in production and manufacturing processes.
In this regard, BroNaphA is considered to be a relatively safe molecule, with limited toxicity and environmental impact.
This is primarily due to its low solubility in water and poor bioavailability, which reduces the likelihood of exposure and toxicity to both human and environmental systems.
BroNaphA has been extensively studied for its toxicity and safety profile, and the results have been promising.
Studies have shown that BroNaphA has low acute oral and dermal toxicity, with an LD50 (lethal dose) value greater than 2000 mg/kg in rats.
This indicates that BroNaphA is relatively safe and can be handled and used with minimal risk of harm to human health.
Furthermore, BroNaphA has been classified as a Category 3 carcinogen by the International Agency for Research on Cancer (IARC), which means that it is not classifiable as to its carcinogenicity to humans.
This classification was based on limited evidence of carcinogenicity in animals, and the lack of evidence for genotoxicity and carcinogenicity in humans.
In terms of environmental impact, BroNaphA is considered to be relatively stable and non-reactive, with a low potential for persistence and accumulation in the environment.
This is primarily due to its limited solubility in water and propensity to adsorb to sediment and other surfaces.
Additionally, BroNaphA has a low potential for bioaccumulation, as it is rapidly metabolized and excreted from the body.
Overall, the safety of BroNaphA is considered to be good, with limited toxicity and environmental impact.
This makes it an attractive material for use in various applications, including biological imaging, sensing, and optical devices, where its unique properties and low toxicity profile can be exploited to create innovative solutions and products.
However, it is still important to handle BroNaphA with caution and follow proper safety protocols, particularly when handling large quantities or in high-risk environments.
