sesquicarbonate
简明释义
英[ˌsɛs.kwiˈkɑːr.bəˌneɪt]美[ˌsɛs.kwiˈkɑːr.bəˌneɪt]
n. [化学] 倍半碳酸盐
英英释义
A type of carbonate mineral that contains one and a half times the amount of carbon dioxide compared to the amount of alkali metal. | 一种碳酸盐矿物,含有的二氧化碳量是碱金属量的一倍半。 |
单词用法
同义词
| 碳酸氢盐 | Sodium bicarbonate is commonly used in baking as a leavening agent. | 碳酸氢钠常用于烘焙中作为发酵剂。 | |
| 碳酸盐 | 碳酸钙常用作膳食补充剂。 |
反义词
| 碳酸盐 | 碳酸钠常用于玻璃制造。 | ||
| 碳酸氢盐 | Baking soda is a common form of sodium bicarbonate used in cooking. | 小苏打是烹饪中常用的碳酸氢钠形式。 |
例句
1.We mix sodium perborate with sodium sesquicarbonate and bicarbonate.
我们将过硼酸钠与倍半碳酸钠和碳酸氢钠混合。
2.We mix sodium perborate with sodium sesquicarbonate and bicarbonate.
我们将过硼酸钠与倍半碳酸钠和碳酸氢钠混合。
3.Researchers are studying the effects of sesquicarbonate on the environment and its potential uses in agriculture.
研究人员正在研究偏碳酸盐对环境的影响及其在农业中的潜在用途。
4.The presence of sesquicarbonate in the soil can enhance its fertility and support plant growth.
土壤中存在的偏碳酸盐可以增强其肥力并支持植物生长。
5.In some regions, the water is rich in sesquicarbonate, leading to unique geological formations.
在某些地区,水中富含偏碳酸盐,导致独特的地质形成。
6.The chemical formula for sesquicarbonate indicates that it contains both carbonate and bicarbonate ions.
偏碳酸盐的化学式表明它同时包含碳酸根离子和碳酸氢根离子。
7.The mineral composition of the ore includes significant amounts of sesquicarbonate, which can affect its processing.
矿石的矿物成分包括大量的偏碳酸盐,这可能会影响其加工。
作文
In the world of chemistry, there are many compounds that play significant roles in various processes. One such compound is sesquicarbonate, which is a term that refers to a type of carbonate mineral that contains one and a half times the amount of carbon compared to a standard carbonate. The chemical formula for sesquicarbonate typically includes two carbonate ions (CO3) along with one bicarbonate ion (HCO3). This unique composition gives sesquicarbonate its distinctive properties and makes it an interesting subject of study for chemists and geologists alike.Understanding the significance of sesquicarbonate requires a look into its applications and occurrences in nature. One notable example of sesquicarbonate is natron, a naturally occurring mineral that consists primarily of sodium carbonate decahydrate and sodium bicarbonate. Natron has been used historically in ancient Egypt for mummification and as a cleaning agent. Its relevance in history highlights the importance of sesquicarbonate in both practical applications and cultural practices.In addition to its historical significance, sesquicarbonate plays a vital role in environmental chemistry. For instance, it can influence the pH levels of natural waters and affect the solubility of other minerals. The presence of sesquicarbonate in water bodies can lead to the formation of carbonate sediments, which are crucial for maintaining aquatic ecosystems. Understanding how sesquicarbonate interacts with other substances helps scientists predict changes in water chemistry and the overall health of aquatic environments.Moreover, sesquicarbonate is also relevant in the field of material science. Researchers are exploring its potential uses in developing new materials that could have applications in various industries, including construction and environmental remediation. The unique properties of sesquicarbonate allow for the creation of composites that can withstand harsh conditions while being environmentally friendly.In summary, sesquicarbonate is more than just a chemical term; it represents a fascinating intersection of history, environmental science, and material innovation. By studying sesquicarbonate, we gain insights into both the natural world and the ways in which we can harness its properties for future applications. As we continue to explore the complexities of chemistry, the role of sesquicarbonate will undoubtedly remain a topic of interest and importance in various scientific fields. Its multifaceted nature exemplifies the interconnectedness of different disciplines and highlights the need for continued research and exploration in understanding the materials that shape our world.
在化学的世界中,有许多化合物在各种过程中发挥着重要作用。其中一个这样的化合物是sesquicarbonate,这个术语指的是一种类型的碳酸盐矿物,其碳含量是标准碳酸盐的1.5倍。sesquicarbonate的化学式通常包括两个碳酸根离子(CO3)和一个碳酸氢根离子(HCO3)。这种独特的组成使得sesquicarbonate具有独特的性质,并使其成为化学家和地质学家研究的有趣课题。理解sesquicarbonate的重要性需要了解其应用和在自然界中的出现。一个显著的例子是天然矿物natron,它主要由十水合碳酸钠和碳酸氢钠组成。natron在古埃及历史上被用于木乃伊制作和清洁剂。它在历史上的相关性突显了sesquicarbonate在实际应用和文化实践中的重要性。除了历史意义外,sesquicarbonate在环境化学中也发挥着至关重要的作用。例如,它可以影响自然水体的pH值并影响其他矿物的溶解度。水体中sesquicarbonate的存在可能导致碳酸盐沉积物的形成,这对于维持水生生态系统至关重要。理解sesquicarbonate与其他物质的相互作用帮助科学家预测水化学的变化以及水生环境的整体健康。此外,sesquicarbonate在材料科学领域也具有相关性。研究人员正在探索其在开发新材料方面的潜在用途,这些材料可能在建筑和环境修复等各个行业中应用。sesquicarbonate的独特性质使得创造能够承受恶劣条件且环保的复合材料成为可能。总之,sesquicarbonate不仅仅是一个化学术语;它代表了历史、环境科学和材料创新的迷人交汇点。通过研究sesquicarbonate,我们获得了对自然世界的洞察,以及如何利用其性质进行未来应用的方式。随着我们继续探索化学的复杂性,sesquicarbonate的角色无疑将继续成为各个科学领域的重要话题。它多方面的性质体现了不同学科之间的相互联系,并强调了在理解塑造我们世界的材料方面继续研究和探索的必要性。
