semiconductive body
简明释义
半导体衬底
英英释义
例句
1.A high-quality semiconductive body can significantly reduce power loss.
高质量的半导体体可以显著减少功率损耗。
2.Researchers are developing new materials for the semiconductive body to improve performance.
研究人员正在开发新的材料用于半导体体以提高性能。
3.The semiconductive body is crucial for the functionality of modern electronic devices.
对于现代电子设备的功能来说,半导体体是至关重要的。
4.The device operates using a semiconductive body, which allows for efficient energy transfer.
该设备使用一个半导体体,这使得能量传输更加高效。
5.In solar panels, the semiconductive body converts sunlight into electricity.
在太阳能电池板中,半导体体将阳光转换为电能。
作文
In the realm of modern electronics, the term semiconductive body refers to a material that has electrical conductivity between that of a conductor and an insulator. This unique property makes semiconductive bodies essential for various applications in electronic devices. Semiconductors are typically made from elements like silicon or germanium, which can be manipulated to control their conductive properties. The ability to modify the conductivity of a semiconductive body is crucial for creating components such as transistors, diodes, and integrated circuits.The significance of semiconductive bodies lies in their application in technology that powers our daily lives. For instance, in smartphones, computers, and other digital devices, semiconductors are used to create microchips that process information at incredible speeds. Without semiconductive bodies, the advancement of technology as we know it would not have been possible. They serve as the backbone of modern computing, enabling the miniaturization of components while enhancing performance.One of the fascinating aspects of semiconductive bodies is their ability to function under different conditions. By introducing impurities into a pure semiconductor, known as doping, manufacturers can create n-type or p-type semiconductors. This process allows for the creation of junctions that are fundamental for the operation of various electronic devices. For example, a p-n junction, formed by joining p-type and n-type materials, is critical in the functioning of diodes and transistors, which are the building blocks of all electronic circuits.Moreover, the research and development surrounding semiconductive bodies continue to evolve. With the advent of new materials, such as organic semiconductors and two-dimensional materials like graphene, scientists are exploring new frontiers in electronics. These advancements could lead to even more efficient devices with lower power consumption, paving the way for innovations in renewable energy technologies and flexible electronics.In conclusion, the concept of semiconductive body is integral to understanding the foundation of modern electronics. Their unique properties allow for the manipulation of electrical signals, making them indispensable in creating the technology we rely on today. As research progresses, the future of semiconductive bodies promises exciting developments that could revolutionize the way we interact with technology, ultimately enhancing our quality of life. Understanding the role of semiconductive bodies not only provides insight into the workings of electronic devices but also highlights the importance of continued innovation in this field.
在现代电子领域,短语半导体体指的是一种电导率介于导体和绝缘体之间的材料。这种独特的特性使得半导体体在各种电子设备的应用中至关重要。半导体通常由硅或锗等元素制成,这些材料可以被操控以控制其导电特性。修改半导体体的导电性能力对于创建晶体管、二极管和集成电路等组件至关重要。半导体体的重要性在于它们在我们日常生活中所依赖的技术中的应用。例如,在智能手机、计算机和其他数字设备中,半导体用于创建以惊人速度处理信息的微芯片。如果没有半导体体,我们所知的技术进步将不可想象。它们是现代计算的支柱,使得组件的小型化成为可能,同时提升了性能。半导体体的一个迷人之处在于它们在不同条件下的工作能力。通过向纯半导体中引入杂质,称为掺杂,制造商可以创建n型或p型半导体。这个过程允许形成对各种电子设备操作至关重要的结。例如,由p型和n型材料结合形成的p-n结,对于二极管和晶体管的功能至关重要,而这些都是所有电子电路的基本构件。此外,围绕半导体体的研究和开发仍在不断发展。随着新材料的出现,例如有机半导体和石墨烯等二维材料,科学家们正在探索电子学的新前沿。这些进展可能导致更高效的设备,具有更低的功耗,为可再生能源技术和柔性电子产品的创新铺平道路。总之,理解半导体体的概念对于理解现代电子的基础至关重要。它们独特的特性使得电信号的操控成为可能,使其在创造我们今天所依赖的技术中不可或缺。随着研究的进展,半导体体的未来承诺着令人兴奋的发展,这可能会彻底改变我们与技术的互动方式,最终提升我们的生活质量。理解半导体体的作用不仅提供了对电子设备工作原理的深入了解,还突显了在这一领域持续创新的重要性。
