ultrapure
简明释义
adj. 超纯的
英英释义
Extremely pure; having a very high degree of purity, often used in contexts such as chemistry or materials science. | 极其纯净的;具有非常高的纯度,通常用于化学或材料科学等领域。 |
单词用法
[化]超纯水 |
同义词
| 高度纯净 | The laboratory requires highly pure chemicals for accurate results. | 实验室需要高度纯净的化学品以获得准确的结果。 | |
| 超纯 | We use super pure water in our experiments to avoid contamination. | 我们在实验中使用超纯水以避免污染。 | |
| 最纯的 | 该产品由最纯的成分制成。 |
反义词
| 不纯 | 由于工业废物,水被发现是不纯的。 | ||
| 受污染的 | The laboratory samples were contaminated, leading to inaccurate results. | 实验室样本受到污染,导致结果不准确。 | |
| 肮脏的 | The dirty air in the city poses health risks to its residents. | 城市中的肮脏空气对居民健康构成威胁。 |
例句
1.The specification, preparation, packing, storage and production of ultrapure sulphuric acid (UPS) are introduced.
介绍了超纯硫酸的规格、制备方法、包装、贮运及其生产情况。
2.Practice shows that NTR-759 is a reverse osmosis membrane with excellent performance and can be used for ultrapure water production.
实际应用表明,NTR- 759是一种性能良好的反渗透复合膜,可广泛应用于高纯水的制备。
3.Pure water. Ultrapure water such as water treatment.
纯净水。超纯水等水处理。
4.When the proteins of pollens were treated with ultrapure water and mercaptoethanol, no specific band was observed among the self-incompatible lines and the compatible lines.
以双蒸水和巯基乙醇作为提取液处理花粉,均未发现自交不亲和系共有的特征带。
5.The pretreatment of the raw material by magnetic separation to prepare the qualified ultrapure iron concentrate for producing permanently magnetic ferrite is described.
介绍了磁选方法预处理原料,制备适合于永磁铁氧体生产的合格超纯铁精矿。
6.The first ultrapure fiber was made just four years later, in 1970.
仅仅四年之后,全球首个超纯纤维就于1970年问世。
7.The pharmaceutical company invested in ultrapure (超纯) solvents to enhance drug formulation.
制药公司投资于
8.The laboratory requires an environment with ultrapure (超纯) water for accurate experiments.
实验室需要一个环境,提供
9.In semiconductor manufacturing, ultrapure (超纯) chemicals are essential to avoid contamination.
在半导体制造中,ultrapure (超纯) 化学品是避免污染的关键。
10.For high-performance optics, ultrapure (超纯) glass is required to minimize distortions.
对于高性能光学设备,需要使用
11.Researchers found that using ultrapure (超纯) reagents improved the reliability of their results.
研究人员发现,使用ultrapure (超纯) 试剂提高了结果的可靠性。
作文
In today's world, where technology and scientific advancements are at the forefront of our daily lives, the term ultrapure (超纯的) has gained significant importance. It refers to substances that are exceptionally free from contaminants and impurities. This characteristic is particularly crucial in various fields such as pharmaceuticals, electronics, and environmental science. The demand for ultrapure (超纯的) materials is driven by the need for precision and reliability in products that require the highest standards of purity.For instance, in the pharmaceutical industry, the production of medicines requires ultrapure (超纯的) water, which is essential for formulating drugs. Any impurities in the water can lead to adverse reactions in patients or affect the efficacy of the medication. Therefore, manufacturers invest heavily in purification technologies to ensure that the water used meets stringent quality standards. The process of creating ultrapure (超纯的) water involves multiple filtration stages, including reverse osmosis and distillation, to eliminate any contaminants.Similarly, in the field of electronics, the production of semiconductors relies on ultrapure (超纯的) chemicals. These materials must be free from even the slightest trace of impurities, as they can significantly impact the performance of electronic devices. A single particle of dust or an unwanted chemical can cause malfunctions in microchips, leading to costly failures and recalls. As a result, companies in this sector prioritize the sourcing and handling of ultrapure (超纯的) materials to maintain the integrity of their products.Environmental science also benefits from the concept of ultrapure (超纯的) substances. Researchers often require ultrapure (超纯的) reagents for experiments that analyze pollutants or study ecological systems. The accuracy of these studies hinges on the purity of the materials used. If the reagents contain impurities, the results may be skewed, leading to incorrect conclusions about environmental health or the effectiveness of remediation efforts.Moreover, the quest for ultrapure (超纯的) substances aligns with the growing trend towards sustainability. As industries strive to reduce their environmental footprint, the focus on producing ultrapure (超纯的) materials encourages the development of greener purification processes. Innovations in this area not only improve product quality but also contribute to the overall reduction of waste and energy consumption.In conclusion, the significance of ultrapure (超纯的) materials cannot be overstated. As we continue to advance technologically and scientifically, the need for purity in various applications will only increase. Whether it’s in pharmaceuticals, electronics, or environmental research, the pursuit of ultrapure (超纯的) substances is essential for ensuring safety, reliability, and sustainability in our modern world. Understanding and implementing the principles behind ultrapure (超纯的) materials will undoubtedly play a crucial role in shaping the future of innovation across multiple sectors.
在当今世界,科技和科学进步处于我们日常生活的前沿,术语ultrapure(超纯的)变得越来越重要。它指的是几乎不含污染物和杂质的物质。这一特性在制药、电子和环境科学等多个领域尤为关键。对ultrapure(超纯的)材料的需求源于对精确性和可靠性的追求。例如,在制药行业,药品生产需要使用ultrapure(超纯的)水,这对药物配方至关重要。水中的任何杂质都可能导致患者的不良反应或影响药物的疗效。因此,制造商在净化技术上投入巨资,以确保所用水符合严格的质量标准。制造ultrapure(超纯的)水的过程涉及多个过滤阶段,包括反渗透和蒸馏,以消除任何污染物。同样,在电子领域,半导体的生产依赖于ultrapure(超纯的)化学品。这些材料必须完全不含杂质,因为它们会显著影响电子设备的性能。一粒灰尘或一种不必要的化学物质都可能导致微芯片故障,从而造成昂贵的故障和召回。因此,该行业的公司优先考虑采购和处理ultrapure(超纯的)材料,以保持其产品的完整性。环境科学也受益于ultrapure(超纯的)物质的概念。研究人员经常需要ultrapure(超纯的)试剂来进行分析污染物或研究生态系统的实验。这些研究的准确性取决于所用材料的纯度。如果试剂含有杂质,结果可能会失真,从而导致对环境健康或修复效果的错误结论。此外,追求ultrapure(超纯的)物质与日益增长的可持续发展趋势相一致。随着各行业努力减少其环境足迹,生产ultrapure(超纯的)材料的重点鼓励开发更环保的净化工艺。在这一领域的创新不仅提高了产品质量,还有助于整体减少废物和能源消耗。总之,ultrapure(超纯的)材料的重要性不容小觑。随着我们在技术和科学上的不断进步,对各类应用中纯度的需求只会增加。无论是在制药、电子还是环境研究中,追求ultrapure(超纯的)物质都是确保我们现代世界安全、可靠和可持续发展的关键。理解并实施ultrapure(超纯的)材料背后的原则无疑将在塑造多个行业的创新未来中发挥重要作用。
