sulfuret
简明释义
n. 硫化物
vt. 使同硫化合;使含有硫
第 三 人 称 单 数 s u l f u r e t s
现 在 分 词 s u l f u r e t i n g 或 s u l f u r e t t i n g
过 去 式 s u l f u r e t e d 或 s u l f u r e t t e d
过 去 分 词 s u l f u r e t e d 或 s u l f u r e t t e d
英英释义
A chemical compound containing sulfur, typically formed by the reaction of sulfur with a metal or other nonmetal. | 一种含有硫的化合物,通常是通过硫与金属或其他非金属反应形成的。 |
单词用法
金属硫化物 | |
硫化物化合物 | |
硫化矿物 | |
铁的硫化物 | |
汞的硫化物 | |
硫化物形成 |
同义词
| 硫化物 | 铁硫化物通常在地质构造中发现。 | ||
| 硫化合物 | 该反应产生了一种新的硫化合物。 |
反义词
| 氧化剂 | 过氧化氢是常用的氧化剂,用于漂白。 | ||
| 氧化化合物 | Rust is an example of an oxidized compound formed from iron. | 锈是铁形成的氧化化合物的一个例子。 |
例句
1.The environmental impact study focused on the effects of sulfuret mining.
环境影响研究集中在硫化物开采的影响上。
2.In geology, sulfuret minerals are often associated with metal deposits.
在地质学中,硫化物矿物通常与金属矿床相关联。
3.The laboratory analyzed the sulfuret samples for their purity.
实验室分析了硫化物样品的纯度。
4.The chemical reaction produced a compound known as sulfuret.
这个化学反应产生了一种称为硫化物的化合物。
5.Some plants can absorb heavy metals from the soil by forming sulfuret complexes.
一些植物可以通过形成硫化物复合物从土壤中吸收重金属。
作文
The study of minerals and their properties is a fascinating field that combines elements of chemistry, geology, and environmental science. One particular group of minerals that has garnered significant attention is the sulfides, which include compounds known as sulfuret (硫化物). These minerals are characterized by the presence of sulfur combined with metals or semimetals, and they play a crucial role in various geological processes. Understanding sulfuret is essential not only for mineralogy but also for applications in mining and metallurgy.Sulfides can be found in many geological settings, often forming in hydrothermal veins where hot, mineral-rich fluids circulate through rocks. The formation of sulfuret typically occurs when sulfur combines with metals such as copper, lead, and zinc, resulting in minerals like chalcopyrite, galena, and sphalerite. These minerals are economically important because they are primary sources of these essential metals used in various industries, including electronics, construction, and transportation.In addition to their economic significance, sulfuret also poses environmental challenges. Mining operations that extract these minerals can lead to the release of toxic substances, including heavy metals and sulfuric acid, which can contaminate local water sources and harm ecosystems. Therefore, understanding the behavior of sulfuret in the environment is critical for developing effective remediation strategies and minimizing the ecological impact of mining activities.Moreover, the study of sulfuret extends beyond just the extraction of metals. Researchers are exploring the potential of these minerals in various technological applications. For instance, some sulfuret materials exhibit unique electrical and thermal properties, making them suitable candidates for use in batteries and other electronic devices. As the demand for sustainable energy solutions increases, the exploration of sulfuret in this context could pave the way for innovative advancements in technology.Another intriguing aspect of sulfuret is its role in biological systems. Certain microorganisms have the ability to utilize sulfur compounds, including sulfuret, for energy production through a process called chemosynthesis. This process is vital in extreme environments such as deep-sea hydrothermal vents, where life thrives despite the absence of sunlight. Understanding how these organisms interact with sulfuret can provide insights into the origins of life on Earth and the potential for life on other planets.In conclusion, sulfuret (硫化物) represents a significant area of study within mineralogy and environmental science. Its importance spans economic, environmental, and technological domains, highlighting the need for a comprehensive understanding of these minerals. As we continue to explore the complexities of sulfuret, we unlock new opportunities for sustainable resource management and innovative applications that can benefit society as a whole.
