benzanthracene
简明释义
英[/ˌbɛn.zænˈθreɪ.siːn/]美[/ˌbɛn.zænˈθreɪ.siːn/]
n. [有化] 苯并蒽
英英释义
Benzanthracene is a polycyclic aromatic hydrocarbon consisting of four fused benzene rings, known for its carcinogenic properties and presence in coal tar. | 苯蒽是一种由四个融合的苯环组成的多环芳香烃,以其致癌特性和在煤焦油中的存在而闻名。 |
单词用法
同义词
| 3,4-苯并蒽 | Benzanthracene is often studied for its carcinogenic properties. | 苯并蒽常被研究其致癌特性。 | |
| 苯并[a]蒽 | The presence of benzo[a]anthracene in the environment raises health concerns. | 环境中存在苯并[a]蒽引发健康问题的关注。 |
反义词
| 非致癌化合物 | Non-carcinogenic compounds are often used in food packaging. | 非致癌化合物常用于食品包装中。 | |
| 良性物质 | Researchers are looking for benign substances to replace harmful chemicals. | 研究人员正在寻找良性物质以替代有害化学品。 |
例句
1.The preventive effects of zhenshenping on dimethyl benzanthracene induced oral carcinogenesis in syrian golden hamster were studied.
研究了镇肾平对二甲基苯并蒽诱导的叙利亚仓鼠口腔癌变的预防作用。
2.Objecti The preventive effects of zhenshenping on dimethyl benzanthracene(DMBA)induced oral carcinogenesis in syrian golden hamster were studied.
目的:研究增生平对二甲基苯并蒽(DMBA)诱发金黄地鼠口腔癌的预防作用。
3.Objecti The preventive effects of zhenshenping on dimethyl benzanthracene(DMBA)induced oral carcinogenesis in syrian golden hamster were studied.
目的:研究增生平对二甲基苯并蒽(DMBA)诱发金黄地鼠口腔癌的预防作用。
4.The chemical structure of benzanthracene 苯并蒽 makes it a potent mutagen.
由于其化学结构,苯并蒽 benzanthracene 是一种强效的诱变剂。
5.Exposure to benzanthracene 苯并蒽 can occur through inhalation of polluted air.
通过吸入污染空气,可能会接触到苯并蒽 benzanthracene。
6.Environmental samples were tested for the presence of benzanthracene 苯并蒽 as a marker for pollution.
环境样本被测试以检测苯并蒽 benzanthracene 的存在,作为污染的标志。
7.Researchers found high levels of benzanthracene 苯并蒽 in areas near industrial sites.
研究人员发现工业区附近存在高水平的苯并蒽 benzanthracene。
8.The study focused on the carcinogenic effects of benzanthracene 苯并蒽 in laboratory mice.
这项研究集中于苯并蒽 benzanthracene 在实验小鼠中的致癌效果。
作文
Benzanthracene is a polycyclic aromatic hydrocarbon (PAH) that is primarily known for its presence in coal tar and as a byproduct of incomplete combustion of organic materials. This compound, represented chemically as C18H12, consists of five fused benzene rings. The structure of benzanthracene makes it an interesting subject of study due to its potential effects on human health and the environment. Research has shown that benzanthracene can be a carcinogen, which means it has the potential to cause cancer in living tissue. This property raises concerns regarding its presence in various environmental settings, particularly in urban areas where industrial activities are prevalent.The significance of benzanthracene extends beyond its chemical composition; it serves as a marker for pollution and environmental degradation. For instance, scientists often measure levels of benzanthracene in soil and water samples to assess the impact of industrial waste and vehicular emissions. High concentrations of this compound can indicate a higher risk of exposure to harmful substances, prompting regulatory bodies to implement stricter controls on emissions and waste disposal practices.In addition to its environmental implications, benzanthracene is also studied for its effects on human health. Epidemiological studies have linked exposure to PAHs, including benzanthracene, to various health issues such as respiratory problems, skin disorders, and increased risk of cancers, particularly lung and bladder cancer. These findings highlight the importance of monitoring and regulating substances like benzanthracene to protect public health.Furthermore, benzanthracene has been used in scientific research to understand the mechanisms of carcinogenesis. Laboratory studies have demonstrated that when cells are exposed to benzanthracene, they undergo genetic mutations that can lead to the development of tumors. By studying these processes, researchers aim to develop better strategies for cancer prevention and treatment.Despite its negative connotations, benzanthracene also plays a role in other fields, such as material science and organic electronics. Its unique properties allow it to be used in the development of organic semiconductors and photovoltaic cells. Researchers are exploring the potential of benzanthracene derivatives in creating more efficient solar panels, which could contribute to sustainable energy solutions.In conclusion, benzanthracene is a complex compound with significant implications for environmental science, public health, and technology. Understanding its properties and effects is crucial for mitigating risks associated with exposure and harnessing its potential benefits in various applications. As we continue to explore the multifaceted nature of benzanthracene, it is essential to balance its risks and rewards, ensuring a safer and more sustainable future for all.
苯蒽是一种多环芳香烃(PAH),主要因其存在于煤焦油中以及作为有机材料不完全燃烧的副产品而闻名。这个化合物的化学式为C18H12,由五个融合的苯环组成。benzanthracene的结构使其成为一个有趣的研究对象,因为它可能对人类健康和环境产生影响。研究表明,benzanthracene可能是一种致癌物,这意味着它有可能在活体组织中引起癌症。这一特性引发了人们对其在各种环境设置中存在的担忧,特别是在工业活动普遍的城市地区。benzanthracene的重要性不仅体现在其化学成分上;它还作为污染和环境退化的标志。例如,科学家们常常测量土壤和水样中benzanthracene的水平,以评估工业废物和机动车排放的影响。高浓度的这种化合物可能表明接触有害物质的风险增加,从而促使监管机构实施更严格的排放和废物处理控制。除了对环境的影响外,benzanthracene还被研究其对人类健康的影响。流行病学研究将接触PAHs,包括benzanthracene,与各种健康问题联系在一起,如呼吸问题、皮肤疾病以及癌症风险增加,特别是肺癌和膀胱癌。这些发现突显了监测和规范像benzanthracene这样的物质以保护公共健康的重要性。此外,benzanthracene还被用于科学研究,以了解致癌机制。实验室研究表明,当细胞暴露于benzanthracene时,它们会发生基因突变,可能导致肿瘤的发展。通过研究这些过程,研究人员旨在制定更好的癌症预防和治疗策略。尽管有负面含义,benzanthracene在其他领域也发挥着作用,例如材料科学和有机电子学。其独特的性质使其可以用于开发有机半导体和光伏电池。研究人员正在探索benzanthracene衍生物在创造更高效的太阳能电池板中的潜力,这可能有助于可持续能源解决方案。总之,benzanthracene是一个复杂的化合物,对环境科学、公共健康和技术具有重要意义。理解其特性和影响对于减轻与接触相关的风险以及利用其在各种应用中的潜在好处至关重要。在我们继续探索benzanthracene的多方面性质时,平衡其风险和回报,确保所有人的安全和可持续未来是至关重要的。
