native silicon dioxide

简明释义

天然二氧化硅

英英释义

例句

1.Cleaning processes must carefully consider the removal of native silicon dioxide to avoid damaging the silicon surface.

清洗过程必须仔细考虑去除本征二氧化硅，以避免损坏硅表面。

2.To enhance the electrical properties of the silicon wafer, it is essential to control the thickness of native silicon dioxide.

为了提高硅晶圆的电气特性，控制本征二氧化硅的厚度是至关重要的。

3.During oxidation, native silicon dioxide forms naturally on the surface of silicon wafers.

在氧化过程中，本征二氧化硅自然形成在硅晶圆的表面。

4.The process of etching in semiconductor fabrication often removes the layer of native silicon dioxide, which is crucial for proper device performance.

在半导体制造中的蚀刻过程中，通常会去除一层本征二氧化硅，这对设备的正常性能至关重要。

5.The presence of native silicon dioxide can affect the adhesion of subsequent layers in a multi-layer semiconductor device.

在多层半导体器件中，本征二氧化硅的存在可能影响后续层的粘附性。

作文

Silicon dioxide, commonly known as silica, is a natural compound made up of silicon and oxygen. One of its most significant forms is native silicon dioxide, which refers to the silicon dioxide that occurs naturally in the environment, particularly in the form of quartz. This compound is not only prevalent in nature but also plays a crucial role in various industries, including electronics, construction, and glass manufacturing. Understanding native silicon dioxide is essential for both scientific research and practical applications.In nature, native silicon dioxide can be found in numerous geological formations. It is a primary component of sand, which is a vital material for construction projects. The abundance of silica in sand makes it an indispensable resource for making concrete, glass, and other building materials. Furthermore, the properties of native silicon dioxide contribute to the durability and strength of these materials, ensuring that structures can withstand environmental stressors over time.In the electronics industry, native silicon dioxide holds immense significance due to its electrical insulating properties. Silicon wafers, which are the foundation of modern electronic devices, often have a thin layer of native silicon dioxide formed on their surface. This layer acts as an insulator, preventing unwanted electrical currents from interfering with the operation of transistors and other components. As technology advances, the manipulation of native silicon dioxide at the nanoscale has become a critical area of research, leading to the development of faster and more efficient electronic devices.Moreover, native silicon dioxide is also essential in the field of optics. Glasses and lenses made from silica exhibit excellent transparency and resistance to thermal shock, making them ideal for various applications, including eyewear, cameras, and laboratory equipment. The optical clarity provided by native silicon dioxide enables precise measurement and observation in scientific experiments, highlighting its importance in both research and everyday life.Despite its many advantages, the extraction and processing of native silicon dioxide must be conducted responsibly to minimize environmental impacts. Mining activities can lead to habitat destruction and pollution, which poses risks to local ecosystems. Therefore, sustainable practices are necessary to ensure that the benefits of native silicon dioxide can be enjoyed without compromising the health of our planet. This includes recycling silica-based materials and exploring alternative sources of silicon dioxide that require less invasive extraction methods.In conclusion, native silicon dioxide is a fundamental compound that significantly impacts various sectors, from construction to electronics and optics. Its natural occurrence and versatile properties make it a valuable resource for humanity. However, as we continue to harness the benefits of native silicon dioxide, we must remain vigilant about protecting the environment and promoting sustainability. By doing so, we can ensure that future generations can also benefit from this remarkable compound, paving the way for innovations and advancements that rely on its unique characteristics.

二氧化硅，通常被称为硅石，是一种由硅和氧组成的天然化合物。其最重要的形式之一是天然二氧化硅，指的是自然环境中存在的二氧化硅，特别是以石英的形式。这种化合物不仅在自然界中广泛存在，而且在电子、建筑和玻璃制造等多个行业中发挥着至关重要的作用。理解天然二氧化硅对于科学研究和实际应用都是必不可少的。在自然界中，天然二氧化硅可以在许多地质构造中找到。它是沙子的主要成分，而沙子是建筑项目的重要材料。由于沙子中硅石的丰富性，使其成为制作混凝土、玻璃和其他建筑材料不可或缺的资源。此外，天然二氧化硅的特性有助于这些材料的耐久性和强度，确保结构能够在时间的推移中承受环境压力。在电子行业中，天然二氧化硅因其电绝缘特性而具有重要意义。硅晶圆是现代电子设备的基础，通常在其表面形成一层薄薄的天然二氧化硅层。这一层作为绝缘体，防止不必要的电流干扰晶体管和其他组件的操作。随着技术的发展，在纳米尺度上操控天然二氧化硅已成为一个关键的研究领域，推动了更快、更高效的电子设备的发展。此外，天然二氧化硅在光学领域也至关重要。由硅石制成的玻璃和镜头表现出优异的透明度和热冲击抵抗力，使其非常适合用于各种应用，包括眼镜、相机和实验室设备。天然二氧化硅提供的光学清晰度使得在科学实验中的精确测量和观察成为可能，突显了它在研究和日常生活中的重要性。尽管有许多优点，但提取和加工天然二氧化硅必须负责任地进行，以尽量减少对环境的影响。采矿活动可能导致栖息地破坏和污染，这对当地生态系统构成风险。因此，实施可持续实践是必要的，以确保人们能够享受到天然二氧化硅的好处，而不损害我们星球的健康。这包括回收基于硅的材料以及探索需要较少侵入性提取方法的替代硅源。总之，天然二氧化硅是一种基本化合物，对多个领域产生了显著影响，从建筑到电子和光学。其自然存在和多功能特性使其成为人类的宝贵资源。然而，随着我们继续利用天然二氧化硅的好处，我们必须保持警惕，保护环境并促进可持续发展。通过这样做，我们可以确保未来几代人也能从这一非凡化合物中受益，为依赖其独特特性的创新和进步铺平道路。