silicon

简明释义

英[ˈsɪlɪkən]美[ˈsɪlɪkən]

n. 硅（一种化学元素，符号为 Si）

英英释义

单词用法

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反义词

例句

1.Stanford and Berkeley yielded Silicon Valley.

斯坦福和伯克利造就了硅谷。

2.There aren't many jobs in science for them, so they go to Wall Street and Silicon Valley to apply their analytical skills to more practical—and rewarding—efforts.

在科学领域适合他们的工作并不多，所以他们去华尔街和硅谷把他们的分析技巧应用到更实际、回报更多的工作中。

3.The large-scale decline of international Solar PV price is based on the energy-intensive production of unpurified silicon.

国际太阳能光伏价格的大规模下跌是基于能源密集型生产的未纯化硅。

4.As Silicon Valley has become home to more successful companies, the flood of people to the area has caused housing prices to skyrocket.

随着更多成功企业进军硅谷，人们也开始涌入该地区，导致房价攀升。

5.Additional support came in 1885 when eka-silicon, which had also been described in advance by Mendeleyev, was discovered and named germanium.

1885年，当门捷列夫描述过的埃卡-硅被发现并命名为锗时，也带来了额外的支持。

6.Kapur notes, none of us like to fail, no matter how often Silicon Valley entrepreneurs praise the beneficial effects of an idea that fails or a start-up company that crashes and burns.

卡普尔指出，我们都不喜欢失败，不管硅谷的企业家们多么经常地赞扬那些失败想法或崩溃毁掉的初创公司所传达的有益影响。

7.Silicon valley is known for its technology companies.

硅谷以其科技公司而闻名。

8.Researchers are exploring new uses for silicon in electronics.

研究人员正在探索硅在电子产品中的新用途。

9.The semiconductor industry relies heavily on silicon for manufacturing.

半导体行业在制造中严重依赖硅。

10.The computer chips are made of silicon.

计算机芯片是由硅制成的。

11.Many solar panels use silicon as a key material.

许多太阳能电池板使用硅作为关键材料。

作文

Silicon is one of the most abundant elements on Earth, and it plays a crucial role in modern technology. As a semiconductor, silicon (硅) is fundamental in the manufacturing of electronic devices such as computers, smartphones, and solar panels. The unique properties of silicon (硅) allow it to conduct electricity under certain conditions, making it an ideal material for integrated circuits and transistors. The journey of silicon (硅) from its natural state to being a vital component in our daily lives is fascinating. Found primarily in sand and quartz, silicon (硅) must undergo extensive processing to be used in electronics. This involves purifying the raw material to achieve a high degree of purity, which is essential for its performance in electronic applications. Once purified, silicon (硅) is melted and formed into wafers, which are then sliced into thin discs that serve as the substrate for microchips.The impact of silicon (硅) on technology cannot be overstated. The invention of the silicon (硅) chip revolutionized the electronics industry, leading to the rapid development of computers and other digital devices. Today, we rely on silicon (硅) not only for traditional computing but also for emerging technologies like artificial intelligence and the Internet of Things (IoT). The ability of silicon (硅) to facilitate faster processing speeds and greater energy efficiency has made it indispensable in our quest for innovation.Moreover, silicon (硅) is also making strides in the renewable energy sector. Solar cells, which convert sunlight into electricity, predominantly use silicon (硅) due to its favorable photovoltaic properties. As the world shifts towards more sustainable energy sources, the demand for silicon (硅)-based solar technology is expected to rise significantly. This shift not only highlights the versatility of silicon (硅) but also its importance in addressing global energy challenges. In addition to its technological applications, silicon (硅) has also been explored in various scientific fields. Researchers are investigating the potential of silicon (硅) in biotechnology, where its biocompatibility can be leveraged for medical implants and drug delivery systems. The adaptability of silicon (硅) opens up new avenues for advancements in healthcare, showcasing its relevance beyond just electronics.Looking ahead, the future of silicon (硅) appears promising. With continuous research and development, innovative methods of utilizing silicon (硅) are likely to emerge, further enhancing its role in technology and sustainability. As we navigate the complexities of the digital age, understanding the significance of silicon (硅) will be crucial for anyone interested in the fields of science, technology, engineering, and mathematics (STEM).In conclusion, silicon (硅) is more than just a chemical element; it is a cornerstone of modern civilization. From powering our gadgets to enabling renewable energy solutions, silicon (硅) is integral to our technological landscape. As we continue to innovate and adapt, the importance of silicon (硅) will only grow, shaping the future of our interconnected world.

硅是地球上最丰富的元素之一，在现代技术中扮演着至关重要的角色。作为一种半导体，silicon（硅）是制造电子设备（如计算机、智能手机和太阳能电池板）的基础。silicon（硅）的独特性质使其在某些条件下能够导电，因此成为集成电路和晶体管的理想材料。silicon（硅）从自然状态到成为我们日常生活中重要组成部分的旅程令人着迷。silicon（硅）主要存在于沙子和石英中，必须经过广泛的加工才能用于电子产品。这涉及到将原材料净化，以达到高纯度，这对其在电子应用中的性能至关重要。净化后，silicon（硅）被熔化并形成晶圆，然后切割成薄片，作为微芯片的基底。silicon（硅）对技术的影响不容小觑。silicon（硅）芯片的发明彻底改变了电子工业，导致计算机和其他数字设备的快速发展。今天，我们不仅在传统计算中依赖silicon（硅），还在人工智能和物联网等新兴技术中使用它。silicon（硅）促进更快的处理速度和更高的能效，使其在我们的创新追求中不可或缺。此外，silicon（硅）在可再生能源领域也取得了进展。太阳能电池主要使用silicon（硅），因为它具有良好的光伏特性，可以将阳光转化为电能。随着世界向更可持续的能源来源转变，对基于silicon（硅）的太阳能技术的需求预计将显著上升。这一转变不仅突显了silicon（硅）的多样性，也显示了其在应对全球能源挑战中的重要性。除了技术应用外，研究人员还在各个科学领域探索silicon（硅）的潜力。在生物技术中，研究人员正在研究其生物相容性，以便用于医疗植入物和药物传递系统。silicon（硅）的适应性为医疗保健的进步开辟了新的途径，展示了其在电子以外的相关性。展望未来，silicon（硅）的前景似乎充满希望。随着持续的研究和开发，利用silicon（硅）的创新方法可能会出现，进一步增强其在技术和可持续发展中的作用。在我们应对数字时代的复杂性时，理解silicon（硅）的重要性对任何对科学、技术、工程和数学（STEM）领域感兴趣的人来说都至关重要。总之，silicon（硅）不仅仅是一种化学元素；它是现代文明的基石。从为我们的设备提供动力到推动可再生能源解决方案，silicon（硅）在我们的技术格局中至关重要。随着我们不断创新和适应，silicon（硅）的重要性只会增加，塑造我们互联世界的未来。