phosphide
简明释义
n. [无化] 磷化物
英英释义
A phosphide is a binary compound of phosphorus with a more electropositive element, typically a metal. | 磷化物是磷与一种更具电正性的元素(通常是金属)形成的二元化合物。 |
单词用法
金属磷化物 | |
碱土金属磷化物 | |
过渡金属磷化物 | |
磷化物的合成 | |
磷化物的性质 | |
磷化物的应用 |
同义词
| 磷化合物 | 磷化物常用于半导体材料中。 | ||
| 磷化物离子 | The phosphide ion is a key component in various chemical reactions. | 磷化物离子是多种化学反应中的关键成分。 |
反义词
| 磷酸盐 | 磷酸盐常用于肥料中。 | ||
| 磷酸 | 磷酸用于食品加工和软饮料中。 |
例句
1.The experiment of recirculation fumigation and natural deliquescence of dichlorvos and aluminium phosphide mixed with grain powder is introduced.
介绍了敌敌畏与磷化铝混合粮面施药、自然潮解环流熏蒸试验。
2.The calculated ionization potentials are larger than the fragmentation energies of these small phosphide clusters, exhibiting a dominance of dissociate over ionization.
对于这些小的磷化物团簇,电离势高于裂解能,表明裂解比电离占优势。
3.The Zinc phosphide sticks were inserted into new hole of the gallery from bottom to top, and then the holes had to be blocked with mud.
利用磷化锌毒签防治幼虫时要在蛀道低端几个新鲜都插毒签,并用泥土密封所有排粪孔。
4.The High Efficiency Red source color devices are made with Gallium Arsenide Phosphide on Gallium Phosphide Orange Light Emitting Diode.
高效率红源彩色设备均采用砷化镓磷化镓磷化物的橙色发光二极管。
5.Heading 28.48 includes copper phosphide (phosphor copper) containing more than 15% by weight of phosphorus.
品目28.48包括按重量计含磷量超过15%的磷化铜(磷铜)。
6.This paper introduces the treatment technology of waste gas from production of aluminium phosphide, the selection of absorbent and main design parameters about packed towers.
论述了磷化铝生产废气的治理工艺、吸收剂选择及填料塔主要设计参数。
7.This product doesn't contain phosphide and has good biodegradation. It is not harmful for human and environment.
该产品不含磷、生物降解性好,是一种对人体无毒、对环境无害的环保型产品。
8.The synthesis of phosphide 磷化物 compounds requires careful control of temperature and pressure.
合成phosphide 磷化物化合物需要对温度和压力进行严格控制。
9.Researchers are studying the properties of phosphide 磷化物 for potential applications in energy storage.
研究人员正在研究phosphide 磷化物的特性,以寻找在能源存储方面的潜在应用。
10.The chemical compound known as phosphide 磷化物 is often used in the production of semiconductors.
被称为phosphide 磷化物的化合物常用于半导体的生产。
11.Certain types of phosphide 磷化物 can release toxic gases when they react with moisture.
某些类型的phosphide 磷化物与水分反应时会释放出有毒气体。
12.In agriculture, phosphide 磷化物 is sometimes utilized as a pesticide to control pests.
在农业中,phosphide 磷化物有时被用作农药来控制害虫。
作文
Phosphides are a class of chemical compounds that contain phosphorus in a negative oxidation state. These compounds are often formed by the reaction of phosphorus with metals, resulting in a variety of materials that have unique properties and applications. In this essay, I will explore the significance of phosphide (磷化物) compounds in various fields such as electronics, agriculture, and materials science.One of the most notable applications of phosphide (磷化物) is in the field of electronics. Certain phosphide (磷化物) materials, such as gallium phosphide (GaP) and indium phosphide (InP), are semiconductors that are widely used in optoelectronic devices, including light-emitting diodes (LEDs) and laser diodes. The unique electronic properties of these phosphide (磷化物) compounds make them ideal for converting electrical energy into light, which is essential for modern lighting and communication technologies. As the demand for energy-efficient lighting and high-speed data transmission increases, the importance of phosphide (磷化物) materials in the electronics industry continues to grow.In addition to their use in electronics, phosphide (磷化物) compounds also play a crucial role in agriculture. For instance, aluminum phosphide (AlP) is commonly used as a fumigant to control pests in stored grains and other agricultural products. When exposed to moisture, aluminum phosphide releases phosphine gas, which is toxic to insects and rodents. This application of phosphide (磷化物) helps protect food supplies and ensures that crops can be stored safely without the risk of infestation. However, it is important to handle phosphide (磷化物) compounds with care, as they can pose health risks to humans and non-target organisms if not used properly.Moreover, phosphide (磷化物) compounds are also investigated in the field of materials science for their potential use in new materials with advanced properties. Researchers are exploring the synthesis of novel phosphide (磷化物) nanostructures that may exhibit interesting magnetic, electronic, or optical properties. These materials could lead to the development of innovative technologies, such as more efficient solar cells or advanced battery systems. The versatility of phosphide (磷化物) compounds opens up a wide range of possibilities for future research and applications.In conclusion, phosphide (磷化物) compounds are significant in various domains, including electronics, agriculture, and materials science. Their unique properties enable numerous applications, from enhancing the efficiency of electronic devices to protecting agricultural products. As research continues to uncover new uses for phosphide (磷化物) materials, we can expect to see further advancements that will benefit society in multiple ways. Understanding the role of phosphide (磷化物) compounds is essential for harnessing their potential and addressing the challenges we face in technology and food security.
磷化物是一类含有负氧化态磷的化合物。这些化合物通常通过磷与金属反应形成,产生多种具有独特性质和应用的材料。在这篇文章中,我将探讨磷化物在电子学、农业和材料科学等各个领域的重要性。磷化物最显著的应用之一是在电子学领域。某些磷化物材料,如磷化镓(GaP)和磷化铟(InP),是广泛用于光电设备中的半导体,包括发光二极管(LED)和激光二极管。这些磷化物的独特电子特性使它们非常适合将电能转化为光,这对于现代照明和通信技术至关重要。随着对节能照明和高速数据传输的需求增加,磷化物材料在电子行业中的重要性也在不断增长。除了在电子学中的应用,磷化物化合物在农业中也发挥着至关重要的作用。例如,磷化铝(AlP)常用作熏蒸剂,以控制储存谷物和其他农产品中的害虫。当暴露在潮湿环境中时,磷化铝会释放出磷烯气体,这对昆虫和啮齿动物具有毒性。这种磷化物的应用帮助保护食品供应,并确保农作物能够安全储存,而不必担心受到侵扰。然而,重要的是要小心处理磷化物化合物,因为如果使用不当,它们可能对人类和非目标生物造成健康风险。此外,磷化物化合物在材料科学领域也正在被研究,以期在新材料中使用其先进特性。研究人员正在探索合成新型磷化物纳米结构,这些结构可能表现出有趣的磁性、电子或光学特性。这些材料可能导致创新技术的发展,例如更高效的太阳能电池或先进的电池系统。磷化物化合物的多功能性为未来的研究和应用开辟了广泛的可能性。总之,磷化物化合物在电子学、农业和材料科学等多个领域具有重要意义。它们的独特性质使得众多应用成为可能,从提高电子设备的效率到保护农业产品。随着研究不断揭示磷化物材料的新用途,我们可以期待看到进一步的进展,这将以多种方式惠及社会。理解磷化物化合物的作用对于利用其潜力和应对我们在技术和食品安全方面面临的挑战至关重要。
