cupric
简明释义
adj. 铜的,含铜的;二价铜的
英英释义
Relating to or containing copper, especially in its +2 oxidation state. | 与铜有关或含有铜,特别是在其+2氧化态下。 |
单词用法
[化]硫酸铜 |
同义词
| 铜(II) | Cupric氧化物常用于陶瓷和作为颜料。 | ||
| 亚铜的 | Copper(II) sulfate is often used in agriculture as a fungicide. | 铜(II)硫酸盐常用于农业作为杀真菌剂。 |
反义词
| 亚铜的 | 亚铜氧化物被用作颜料。 | ||
| 非铜的 | 非铜化合物的毒性较低。 |
例句
1.Electroless copper depositing processess are controlled by the kinetics of formaldehyde oxidation reaction, which donate electron for the cathodic reduction of cupric ions.
化学镀铜反应受甲醛氧化过程动力学控制,甲醛氧化为铜离子还原提供电子。
2.Conclusion TP reagent had significant influence on detecting magnesium, because it contented the high concentration of cupric sulfate.
结论:可能是TP试剂因含高浓度硫酸铜,对镁测定有正干扰。
3.The diagram of chemical potential shows that the total concentration of cupric ions is main influence factor on chloride precipitation.
化学位图分析表明,铜离子总浓度是影响氯脱除率的主要因素。
4.The results showed that many orchard soils had been polluted by cupric pesticides, in some cases, the contents of copper were even higher than that of official standard.
结果表明,一些果园地区由于长期使用波尔多液,土壤铜含量严重超标。
5.They based on the oxidative polymerization of 2,6-dimethylphenol(DMP) using cupric ammine complex catalyst.
这些方法是以2,6-二甲基苯酚通过铜铵络合催化的氧化聚合为基础。
6.A hard problern is free from impurity iron in tbe preparation of cupric sulfate from spongy-copper.
用海绵铜生产硫酸铜,其困难在于除铁杂质。
7.The cupric 铜的 oxide was used in the experiment to test its conductivity.
实验中使用了cupric 铜的 氧化物来测试其导电性。
8.The cupric 铜的 ions in the solution can be measured using a spectrophotometer.
溶液中的cupric 铜的 离子可以通过分光光度计进行测量。
9.The solution turned blue after adding cupric 铜的 sulfate to the water.
在水中加入了cupric 铜的 硫酸盐后,溶液变成了蓝色。
10.Farmers sometimes apply cupric 铜的 fungicides to protect crops from disease.
农民有时会施用cupric 铜的 杀真菌剂来保护作物免受疾病侵害。
11.In organic chemistry, cupric 铜的 compounds are often used as catalysts.
在有机化学中,cupric 铜的 化合物常被用作催化剂。
作文
The world of chemistry is filled with fascinating elements and compounds, each playing a unique role in various applications. One such compound that often comes up in discussions about copper chemistry is cupric, which refers to the +2 oxidation state of copper. Copper, as we know, is a vital metal used widely in electrical wiring, plumbing, and even in the creation of coins. However, what many may not realize is the importance of its oxidation states, particularly the cupric state, in determining how copper interacts with other substances.When we talk about cupric compounds, we are usually referring to those where copper is in its +2 oxidation state, such as copper(II) sulfate (CuSO4) or cupric oxide (CuO). These compounds are not only significant in industrial applications but also play a crucial role in biological systems. For instance, cupric ions are essential for the functioning of various enzymes in the human body, including those involved in energy production and antioxidant defense.In agriculture, cupric compounds are often used as fungicides and algicides. Farmers apply cupric sulfate to crops to protect them from fungal infections and to improve soil quality. This application highlights the dual nature of cupric compounds; they can be beneficial in controlled amounts but potentially harmful if misused.Moreover, the study of cupric compounds extends beyond agriculture and into the realm of environmental science. Researchers are investigating how cupric ions interact with various pollutants and their role in bioremediation processes. Understanding these interactions can lead to more effective strategies for cleaning contaminated environments, showcasing the versatility of cupric in both beneficial and detrimental contexts.The versatility of cupric compounds is further demonstrated in the field of materials science. For example, cupric oxide is used in the production of superconductors and photovoltaic cells, which are essential for developing sustainable energy technologies. The unique properties of cupric materials make them suitable for various high-tech applications, emphasizing the importance of this oxidation state in modern technology.In conclusion, understanding the term cupric is crucial for anyone interested in chemistry, biology, or environmental science. The implications of cupric compounds extend far beyond the laboratory, affecting agriculture, health, and technology. As we continue to explore the vast world of chemical compounds, it is essential to appreciate the role that cupric plays in our lives and the environment. By recognizing the significance of cupric in various fields, we can better understand the intricate connections between chemistry and the world around us.
化学的世界充满了迷人的元素和化合物,每种都在各种应用中发挥着独特的作用。在关于铜化学的讨论中,常常提到的一个化合物是cupric,它指的是铜的+2氧化态。众所周知,铜是一种重要的金属,广泛用于电线、电管,甚至制作硬币。然而,许多人可能没有意识到其氧化态的重要性,尤其是cupric状态,在决定铜如何与其他物质相互作用方面。当我们谈论cupric化合物时,通常是指那些铜处于+2氧化态的化合物,如硫酸铜(CuSO4)或氧化亚铜(CuO)。这些化合物不仅在工业应用中具有重要意义,而且在生物系统中也发挥着关键作用。例如,cupric离子对于人体内多种酶的功能至关重要,包括那些参与能量生产和抗氧化防御的酶。在农业中,cupric化合物常用作杀真菌剂和藻类杀灭剂。农民将cupric硫酸盐施用于作物,以保护它们免受真菌感染,并改善土壤质量。这一应用突显了cupric化合物的双重性质;在控制的量下,它们可以是有益的,但如果误用则可能有害。此外,cupric化合物的研究不仅限于农业,还涉及环境科学领域。研究人员正在调查cupric离子与各种污染物的相互作用及其在生物修复过程中的作用。理解这些相互作用可以导致更有效的清理受污染环境的策略,展示了cupric在有益和有害背景中的多样性。cupric化合物的多样性在材料科学领域得到了进一步证明。例如,cupric氧化物用于超导体和光伏电池的生产,这些都是开发可持续能源技术的关键。cupric材料的独特性能使其适用于各种高科技应用,强调了这一氧化态在现代技术中的重要性。总之,理解cupric这个术语对任何对化学、生物学或环境科学感兴趣的人来说都是至关重要的。cupric化合物的影响远远超出了实验室,影响着农业、健康和技术。随着我们继续探索化学化合物的广阔世界,欣赏cupric在我们的生活和环境中所发挥的作用是至关重要的。通过认识到cupric在各个领域的重要性,我们可以更好地理解化学与我们周围世界之间错综复杂的联系。
