arsenious
简明释义
adj. 含砷的;含砒素的
英英释义
Relating to or derived from arsenic, especially in its trivalent form. | 与砷有关或源自砷,特别是在其三价形式下。 |
单词用法
亚砷化合物 | |
亚砷三氧化物 | |
亚砷中毒 | |
亚砷物种 |
同义词
| 砷 | Arsenic is a toxic element that can cause serious health issues. | 砷是一种有毒元素,可能导致严重的健康问题。 | |
| 含砷的 | Arsenical compounds are often used in pesticides and herbicides. | 含砷化合物通常用于杀虫剂和除草剂。 |
反义词
| 无害的 | The chemical was found to be innocuous and safe for human consumption. | 这化学物质被发现是无害的,适合人类食用。 | |
| 无害的 | Many plants are harmless to humans, despite their toxic appearance. | 许多植物对人类无害,尽管它们看起来有毒。 |
例句
1.It is put forth that the arsenious Sulfide can't dissolve in the nonoxidizable strong acids. but can dissolve easily in the alkaline solution because of existence of hydrolytic equilibrium.
提出三硫化二砷由于存在水解平衡导致难溶于无氧化性强酸而易溶于强碱溶液中。
2.Arsenious acid chemotherapy is considered effective on treating moderate or advanced liver cancer, but its utilization following liver transplantation remains few.
亚砷酸全身化疗被认为对中晚期肝癌具有一定作用,但在肝移植后的应用还未见报道。
3.Objective:To evaluate the safety and efficacy of combining radiofrequency ablation(RFA) with arsenious acid(AA) locally to treat liver VX2 tumor in rabbits, and to explore its mechanism.
目的:探讨射频消融联合亚砷酸局部治疗对兔肝VX2肿瘤的有效性和安全性,并探讨其机制。
4.It is put forth that the arsenious Sulfide can't dissolve in the nonoxidizable strong acids. but can dissolve easily in the alkaline solution because of existence of hydrolytic equilibrium.
提出三硫化二砷由于存在水解平衡导致难溶于无氧化性强酸而易溶于强碱溶液中。
5.The paper discusses the solubility of the arsenious sulfide in the nonoxidizahle strong acids. alkaline solution by way of the experiment.
通过实验讨论三硫化二砷在无氧化性强酸、强碱溶液中的溶解性。
6.The chemist studied the properties of arsenious 亚砷酸的 compounds for potential applications in agriculture.
化学家研究了arsenious 亚砷酸的化合物在农业中的潜在应用。
7.The environmental report highlighted the dangers of arsenious 亚砷酸的 pollution in the region.
环境报告强调了该地区arsenious 亚砷酸的污染的危险。
8.Researchers are investigating the effects of arsenious 亚砷酸的 compounds on aquatic life.
研究人员正在调查arsenious 亚砷酸的化合物对水生生物的影响。
9.Inorganic arsenious 亚砷酸的 compounds are often found in contaminated water supplies.
无机arsenious 亚砷酸的化合物常常出现在受污染的水源中。
10.Exposure to arsenious 亚砷酸的 substances can lead to serious health issues.
接触arsenious 亚砷酸的物质可能导致严重的健康问题。
作文
Arsenic is a well-known element that has been studied for centuries due to its toxic properties. Among its various forms, one of the most significant is arsenious (三价砷), which refers to arsenic in its +3 oxidation state. This form of arsenic is particularly relevant in discussions about environmental health and safety because it is more toxic than its counterpart, arsenate, which is in the +5 oxidation state. Understanding the implications of arsenious compounds is crucial for assessing risks associated with exposure, especially in regions where arsenic contamination of water supplies is prevalent.The history of arsenic use dates back to ancient times, where it was employed in various applications, from medicine to pest control. However, as awareness of its toxicity grew, the focus shifted towards understanding its environmental impact. The arsenious form, often found in contaminated groundwater, poses serious health risks, including skin lesions, developmental effects, and an increased risk of cancer. Studies have shown that long-term exposure to arsenious compounds can lead to chronic health issues, making it essential for scientists and public health officials to monitor and mitigate these risks.In many parts of the world, particularly in South Asia, drinking water sources are laced with arsenious contaminants. Millions of people rely on groundwater for their daily needs, and the presence of this toxic element raises alarm bells regarding public health. Efforts to filter and purify water are ongoing, but the challenge remains significant due to the widespread nature of contamination. Public awareness campaigns aim to educate communities about the dangers of arsenious arsenic and promote safe drinking water practices.From a scientific perspective, understanding the chemistry of arsenious compounds is vital. Researchers explore ways to remediate contaminated sites and develop technologies that can effectively remove arsenic from water. One promising approach involves the use of specialized filters that can capture arsenious particles, thus providing cleaner water for affected populations. Additionally, bioremediation techniques are being studied, which utilize microorganisms to transform harmful arsenious compounds into less toxic forms, showcasing the potential for innovative solutions to this pressing issue.In conclusion, the term arsenious represents more than just a chemical classification; it embodies a critical public health concern that affects millions globally. As we continue to study the effects of arsenious arsenic and seek effective solutions, it is imperative that we remain vigilant in our efforts to protect vulnerable communities from its harmful effects. By raising awareness and investing in research, we can work towards a future where access to safe drinking water is a reality for everyone, free from the dangers posed by arsenious compounds.
砷是一种众所周知的元素,由于其毒性特性,已经被研究了几个世纪。在其各种形式中,其中一个最重要的是arsenious(三价砷),指的是+3氧化态的砷。这种形式的砷在讨论环境健康和安全时特别相关,因为它比其对应物砷酸(+5氧化态)更具毒性。理解arsenious化合物的影响对于评估与暴露相关的风险至关重要,尤其是在砷污染水源普遍存在的地区。砷的使用历史可以追溯到古代,当时它被用于各种应用,从医学到杀虫剂。然而,随着对其毒性的认识增加,重点转向了理解其环境影响。arsenious形式通常存在于受污染的地下水中,对健康构成严重风险,包括皮肤损伤、发育影响和癌症风险增加。研究表明,长期接触arsenious化合物可能导致慢性健康问题,因此科学家和公共卫生官员必须监测和减轻这些风险。在世界许多地方,尤其是在南亚,饮用水源中掺杂了arsenious污染物。数百万人依赖地下水满足日常需求,而这种有毒元素的存在引发了公众健康的警报。过滤和净化水的努力正在进行,但由于污染的广泛性,这一挑战仍然相当重大。公众意识运动旨在教育社区关于arsenious砷的危险,并促进安全饮水的做法。从科学的角度来看,理解arsenious化合物的化学性质至关重要。研究人员探索修复受污染场地的方法,并开发能够有效去除水中砷的技术。一种有前景的方法涉及使用专门的过滤器捕获arsenious颗粒,从而为受影响的人群提供更清洁的水。此外,生物修复技术也在研究中,利用微生物将有害的arsenious化合物转化为较少毒性的形式,展示了应对这一紧迫问题的创新解决方案的潜力。总之,术语arsenious不仅仅代表一种化学分类;它体现了一个关键的公共健康问题,影响着全球数百万人。随着我们继续研究arsenious砷的影响并寻求有效的解决方案,必须保持警惕,以保护易受影响的社区免受其有害影响。通过提高意识和投资研究,我们可以朝着一个人人都能获得安全饮用水的未来迈进,远离arsenious化合物带来的危险。
