tellurium
简明释义
n. [化学]碲(元素符号 Te)
英英释义
A chemical element with the symbol Te and atomic number 52, tellurium is a brittle, silvery-white metalloid that is used in alloys and as a semiconductor. | 一种化学元素,符号为Te,原子序数为52,碲是一种脆性银白色的类金属,用于合金和半导体。 |
单词用法
二氧化碲 |
同义词
| 金属 | Tellurium is a metalloid element used in various applications. | 碲是一种用于各种应用的金属元素。 | |
| 元素 | The properties of tellurium make it a valuable metal in the semiconductor industry. | 碲的特性使其在半导体行业中成为一种有价值的金属。 |
反义词
| 氦 | 氦因其比空气轻而用于气球中。 | ||
| 氢 | 氢是宇宙中最丰富的元素。 |
例句
1.Overheating fuel rods then discharge gaseous forms of certain volatile radioactive elements, including cesium, iodine, strontium and tellurium.
然后过热燃料棒释放出某些气态易挥发放射性元素,比如铯、碘、锶和碲。
2.The generated runtime locator is then passed in the Selenium call to the Selenium core with Tellurium extensions.
生成的运行时定位器然后通过Tellurium扩展传递给Seleniumcore来调用。
3.The bismuth and tellurium minerals include native metals, sulfides, bismuthides, sulphosalts and tellurides.
铋、碲矿物有自然金属、硫化物、铋化物、硫盐和碲化物等类型。
4.That is to say, the Tellurium core generates the runtime locator based on the UI object's attributes in a UI module.
也就是说,Telluriumcore基于UImodule中的UI对象属性,生成运行时定位器。
5.Tellurium on the other hand, treats the whole UI element as a widget; calling the element a UI module.
而Tellurium恰好相反,它把多个UI元素看作一个Widget整体,并将其称作uimodule。
6.A binary compound of tellurium.
乙:一百二十元港币。
7.When heated, tellurium can form toxic fumes.
加热时,碲会产生有毒烟雾。
8.The alloy containing tellurium has better machinability than other alloys.
含有碲的合金比其他合金具有更好的加工性。
9.The chemical symbol for tellurium is Te.
碲的化学符号是Te。
10.Researchers are studying the properties of tellurium for potential applications in solar cells.
研究人员正在研究碲的特性,以便在太阳能电池中的潜在应用。
11.In electronics, tellurium is used to improve the conductivity of copper.
在电子学中,碲用于提高铜的导电性。
作文
Tellurium is a fascinating element that holds a special place in the periodic table. As a metalloid, it shares properties with both metals and non-metals, making it unique in many ways. The symbol for tellurium is Te, and its atomic number is 52. It is primarily used in various industrial applications, including the production of alloys and as a semiconductor material. One of the most interesting aspects of tellurium (碲) is its role in the field of renewable energy. For instance, it is an essential component in the manufacturing of cadmium telluride solar cells, which are known for their efficiency and cost-effectiveness.The discovery of tellurium (碲) dates back to 1782 when it was first identified by the Hungarian chemist Franz-Joseph Müller von Reichenstein. Since then, scientists have explored its properties and potential uses extensively. Tellurium is relatively rare in the Earth's crust, making it valuable for various technological advancements. Its ability to conduct electricity, combined with its semiconducting properties, has led to its application in electronics and photovoltaic systems.In addition to its industrial uses, tellurium (碲) also plays a role in health and biology. Some studies suggest that this element may have antioxidant properties, which could contribute to overall well-being. However, it is important to note that while tellurium (碲) is essential in trace amounts, excessive exposure can be toxic. This dual nature of being both beneficial and potentially harmful is something that researchers continue to investigate.The future of tellurium (碲) looks promising, especially with the growing demand for sustainable energy solutions. As the world shifts towards more environmentally friendly technologies, the need for efficient materials like tellurium (碲) will likely increase. Furthermore, ongoing research into its properties may uncover new applications that we have yet to discover. For instance, scientists are exploring its use in thermoelectric devices, which can convert temperature differences into electrical energy.In conclusion, tellurium (碲) is not just another element on the periodic table; it is a vital component in various scientific and industrial fields. Its unique properties make it invaluable for renewable energy technologies, and ongoing research continues to unveil its potential. As we face global challenges related to energy and sustainability, understanding and utilizing elements like tellurium (碲) will be crucial for a better future. Whether in the realm of electronics, solar energy, or even health, tellurium (碲) remains an element worth studying and appreciating.
碲是一个迷人的元素,在周期表中占有特殊地位。作为一种类金属,它在许多方面与金属和非金属共享特性,使其独特。碲的化学符号是Te,原子序数为52。它主要用于各种工业应用,包括合金的生产以及作为半导体材料。碲(tellurium)最有趣的方面之一是它在可再生能源领域的作用。例如,它是制造碲化镉太阳能电池的重要成分,这些电池以其高效和成本效益而闻名。碲(tellurium)的发现可以追溯到1782年,当时匈牙利化学家弗朗茨-约瑟夫·穆勒·冯·赖兴斯坦首次识别了它。从那时起,科学家们对其性质和潜在用途进行了广泛探索。碲在地壳中的相对稀缺性使其在各种技术进步中变得珍贵。它的导电能力,加上其半导体特性,使其在电子学和光伏系统中的应用得以实现。除了工业用途外,碲(tellurium)在健康和生物学中也发挥着作用。一些研究表明,这种元素可能具有抗氧化特性,这可能有助于整体健康。然而,重要的是要注意,尽管碲(tellurium)在微量时是必需的,但过量接触可能是有毒的。这种既有益又可能有害的双重特性是研究人员继续调查的内容。碲(tellurium)的未来看起来很有前景,特别是在对可持续能源解决方案需求不断增长的情况下。随着世界向更环保的技术转型,对像碲(tellurium)这样的高效材料的需求可能会增加。此外,对其性质的持续研究可能会揭示我们尚未发现的新应用。例如,科学家们正在探索其在热电设备中的使用,这些设备可以将温差转化为电能。总之,碲(tellurium)不仅仅是周期表上的另一个元素;它是各个科学和工业领域的重要组成部分。其独特的特性使其在可再生能源技术中不可或缺,持续的研究不断揭示其潜力。面对与能源和可持续性相关的全球挑战,理解和利用像碲(tellurium)这样的元素对于创造更美好的未来至关重要。无论是在电子学、太阳能还是健康领域,碲(tellurium)都是一个值得研究和欣赏的元素。
