cvd polysilicon

简明释义

化学汽相淀积多晶硅

英英释义

CVD polysilicon refers to polycrystalline silicon that is produced through chemical vapor deposition (CVD) processes, which involve the deposition of silicon from gaseous precursors onto a substrate.

CVD多晶硅是指通过化学气相沉积(CVD)工艺生产的多晶硅,该工艺涉及将气态前驱物沉积到基材上。

例句

1.The solar panel industry relies heavily on cvd polysilicon for efficient energy conversion.

太阳能电池板行业在高效能量转换方面严重依赖cvd polysilicon

2.The purity of cvd polysilicon is crucial for the performance of semiconductor devices.

对于半导体设备的性能来说,cvd polysilicon的纯度至关重要。

3.In our lab, we are testing different coatings on cvd polysilicon to improve its durability.

在我们的实验室中,我们正在测试不同的涂层在cvd polysilicon上,以改善其耐用性。

4.Manufacturers are exploring new methods to produce cvd polysilicon with lower costs.

制造商正在探索以更低成本生产cvd polysilicon的新方法。

5.Research shows that cvd polysilicon can enhance the efficiency of photovoltaic cells.

研究表明,cvd polysilicon可以提高光伏电池的效率。

作文

In recent years, the demand for renewable energy sources has surged, leading to significant advancements in solar technology. One of the key components in the production of solar cells is cvd polysilicon, which stands for chemical vapor deposition polysilicon. This material plays a crucial role in the efficiency and effectiveness of photovoltaic systems. Understanding cvd polysilicon is essential for anyone interested in solar energy and its applications.Firstly, let’s delve into what cvd polysilicon actually is. It is a form of silicon that is produced through a process called chemical vapor deposition. During this process, silicon gas is introduced into a chamber where it is deposited onto a substrate, creating a thin layer of crystalline silicon. This method is preferred for its ability to produce high-purity silicon, which is vital for the performance of solar cells. The purity of cvd polysilicon directly affects the efficiency of the solar cells, making it a critical factor in solar panel manufacturing.The production of cvd polysilicon involves several steps, including the purification of silicon feedstock, the deposition process, and the subsequent treatment of the material to enhance its properties. This multi-step process ensures that the resulting polysilicon is not only pure but also has the right structural characteristics needed for optimal performance in solar applications.Furthermore, the advantages of using cvd polysilicon extend beyond just its purity. The crystalline structure of this material allows for better electron mobility, which is essential for converting sunlight into electricity efficiently. As a result, solar cells made from cvd polysilicon tend to have higher conversion efficiencies compared to those made from other types of silicon, such as amorphous silicon.As the world shifts towards more sustainable energy solutions, the role of cvd polysilicon becomes increasingly important. Many solar manufacturers are investing heavily in the development of technologies that utilize this material to improve the performance and durability of their products. This investment not only helps in meeting the growing demand for solar energy but also contributes to reducing the overall cost of solar power generation.Moreover, the environmental impact of producing cvd polysilicon is another aspect worth considering. While the production process does consume a significant amount of energy, advancements in technology are helping to minimize these impacts. For instance, many companies are now implementing recycling processes for silicon waste and exploring ways to utilize renewable energy sources in their manufacturing facilities.In conclusion, cvd polysilicon is a vital component in the solar energy sector, with its high purity and efficient performance making it a preferred choice for solar cell production. As the demand for renewable energy continues to grow, understanding the importance of cvd polysilicon will be essential for both industry professionals and consumers alike. By investing in this technology and promoting its use, we can pave the way for a more sustainable future powered by clean energy.

近年来,新能源的需求激增,导致太阳能技术取得了显著进展。生产太阳能电池的关键组成部分之一是cvd polysilicon,即化学气相沉积多晶硅。这种材料在光伏系统的效率和有效性中发挥着至关重要的作用。理解cvd polysilicon对于任何对太阳能及其应用感兴趣的人来说都是必不可少的。首先,让我们深入了解cvd polysilicon究竟是什么。它是一种通过化学气相沉积工艺生产的硅。在此过程中,硅气被引入一个腔室,在该腔室中,它被沉积到基材上,形成一层薄薄的结晶硅。这种方法因其能够生产高纯度硅而受到青睐,而高纯度硅对太阳能电池的性能至关重要。cvd polysilicon的纯度直接影响太阳能电池的效率,使其成为太阳能电池制造中的关键因素。cvd polysilicon的生产涉及几个步骤,包括硅原料的净化、沉积过程以及随后对材料进行处理以增强其特性。这一多步骤过程确保了最终得到的多晶硅不仅纯净,而且具有太阳能应用所需的正确结构特性。此外,使用cvd polysilicon的优势不仅仅体现在其纯度上。该材料的结晶结构允许更好的电子迁移,这对于有效地将阳光转化为电能至关重要。因此,由cvd polysilicon制成的太阳能电池相比于其他类型的硅(如非晶硅)通常具有更高的转换效率。随着世界向更可持续的能源解决方案转变,cvd polysilicon的角色变得愈发重要。许多太阳能制造商正在大力投资开发利用这种材料的技术,以提高其产品的性能和耐用性。这项投资不仅有助于满足日益增长的太阳能需求,还有助于降低太阳能发电的总体成本。此外,生产cvd polysilicon的环境影响也是值得考虑的一个方面。虽然生产过程确实消耗大量能源,但技术的进步正在帮助最小化这些影响。例如,许多公司现在正在实施硅废料的回收工艺,并探索在其制造设施中利用可再生能源的方法。总之,cvd polysilicon是太阳能行业的重要组成部分,其高纯度和高效性能使其成为太阳能电池生产的首选。随着对可再生能源需求的持续增长,理解cvd polysilicon的重要性对行业专业人士和消费者 alike 都至关重要。通过投资这一技术并促进其使用,我们可以为一个由清洁能源驱动的可持续未来铺平道路。