antimonial

简明释义

英[ˌæntɪˈməʊnjəl]美[ˌæntɪˈmonɪəl]

adj. 锑的；含锑的

n. [无化] 含锑药剂

英英释义

单词用法

同义词

反义词

例句

1.Antimonial lead is preferable to chemical lead because of its greater corrosion resistance and strength.

铅好些，由于它有更好的抗蚀性及强度。

2.Antimonial lead is preferable to chemical lead because of its greater corrosion resistance and strength.

铅好些，由于它有更好的抗蚀性及强度。

3.Researchers are studying the effects of antimonial 铅矿的 drugs on parasitic infections.

研究人员正在研究antimonial 铅矿的药物对寄生虫感染的影响。

4.The use of antimonial 铅矿的 materials in cosmetics has raised health concerns.

在化妆品中使用antimonial 铅矿的材料引发了健康担忧。

5.In alchemy, antimonial 铅矿的 substances were believed to have mystical properties.

在炼金术中，人们相信antimonial 铅矿的物质具有神秘的特性。

6.The ancient texts often described the properties of antimonial 铅矿的 compounds used in medicine.

古代文献常常描述用于医学的antimonial 铅矿的化合物的特性。

7.The antimonial 铅矿的 compounds were used in traditional remedies for various ailments.

这些antimonial 铅矿的化合物曾用于各种疾病的传统疗法中。

作文

The term antimonial refers to anything related to or derived from antimony, a metalloid element with the symbol Sb. Antimony has been used throughout history for various purposes, including in cosmetics, medicines, and as an alloying agent in metals. Understanding the properties and applications of antimonial compounds is essential for both scientific research and industrial applications.In the realm of chemistry, antimonial compounds often exhibit unique characteristics that make them valuable in various fields. For instance, antimony trioxide is commonly used as a flame retardant in plastics and textiles. This application is crucial in industries where safety standards require materials to resist ignition and slow down the spread of fire. The antimonial nature of this compound allows it to effectively inhibit combustion processes, thereby protecting lives and property.Moreover, the historical context of antimonial use in medicine cannot be overlooked. In ancient times, antimony was incorporated into various remedies and potions, believed to have healing properties. Although modern medicine has moved away from such practices due to safety concerns, the legacy of antimonial compounds in traditional medicine remains significant. Researchers continue to explore the potential therapeutic benefits of antimony-based drugs, particularly in the treatment of certain diseases like leishmaniasis, a parasitic infection.In addition to its medicinal applications, the antimonial properties of antimony are also exploited in the electronics industry. Antimony is used in the production of semiconductors, which are essential components in modern electronic devices. The ability of antimonial compounds to conduct electricity makes them suitable for use in transistors and diodes, paving the way for advancements in technology.However, it is important to acknowledge the environmental and health concerns associated with antimonial compounds. While antimony is a naturally occurring element, excessive exposure to antimonial substances can lead to toxicity. Occupational exposure in industries that handle antimony can pose risks to workers' health, leading to respiratory issues and skin irritation. Therefore, regulations and safety measures are critical when dealing with antimonial materials to minimize potential hazards.In conclusion, the word antimonial encompasses a wide range of applications and implications across various fields, from chemistry and medicine to electronics and safety. As we continue to advance our understanding of this unique element, it is vital to balance its benefits with the potential risks it poses. The ongoing research into antimonial compounds will undoubtedly yield new insights and innovations, ensuring that we harness their properties responsibly and effectively. Through careful study and regulation, we can maximize the advantages of antimonial substances while safeguarding public health and the environment.

术语antimonial指与锑（化学符号为Sb）相关或来源于锑的任何事物。锑在历史上被用于各种用途，包括化妆品、药物和金属的合金剂。理解antimonial化合物的性质和应用对于科学研究和工业应用至关重要。在化学领域，antimonial化合物通常表现出独特的特性，使其在各个领域中具有价值。例如，三氧化二锑通常用作塑料和纺织品的阻燃剂。这种应用在安全标准要求材料抵御点燃和减缓火势蔓延的行业中至关重要。antimonial化合物的特性使其能够有效抑制燃烧过程，从而保护生命和财产。此外，antimonial在医学中的历史背景也不可忽视。在古代，锑被纳入各种疗法和药水中，被认为具有治疗特性。尽管现代医学由于安全问题已经放弃了这种做法，但antimonial化合物在传统医学中的遗产仍然具有重要意义。研究人员继续探索基于锑的药物潜在的治疗益处，特别是在治疗某些疾病如利什曼病（由寄生虫引起的感染）方面。除了医学应用外，锑的antimonial特性在电子行业也得到了利用。锑用于半导体的生产，半导体是现代电子设备中的基本组成部分。antimonial化合物导电的能力使其适合用于晶体管和二极管，为技术进步铺平了道路。然而，必须承认与antimonial化合物相关的环境和健康问题。虽然锑是一种自然存在的元素，但过度接触antimonial物质可能导致毒性。在处理锑的行业中，职业暴露可能对工人的健康构成风险，导致呼吸问题和皮肤刺激。因此，在处理antimonial材料时，法规和安全措施至关重要，以尽量减少潜在的危害。总之，单词antimonial涵盖了各个领域广泛的应用和影响，从化学和医学到电子和安全。随着我们不断加深对这一独特元素的理解，平衡其益处与潜在风险至关重要。对antimonial化合物的持续研究无疑将产生新的见解和创新，确保我们负责任和有效地利用其特性。通过仔细研究和监管，我们可以最大限度地发挥antimonial物质的优势，同时保障公众健康和环境。