n.半导体，准导体

The development of quasi-conductors has opened new avenues in the field of electronics.
准导体的发展为电子学领域开辟了新的途径。
In semiconductor engineering, quasi-conductors are used to create specialized circuits with unique properties.
在半导体工程中，准导体被用来制造具有独特性能的专用电路。
The use of quasi-conductors in optoelectronic devices enhances their sensitivity to light.
在光电子设备中使用准导体可以提高它们对光的敏感性。
Some materials behave as quasi-conductors at low temperatures, making them suitable for cryogenic applications.
某些材料在低温下表现为准导体，这使得它们适用于低温应用。
Quasi-conductors have intermediate electrical conductivity between insulators and true conductors, offering versatile applications.
准导体具有介于绝缘体和真正导体之间的电导率，提供了多样的应用可能性。
In quantum physics, quasi-conductors exhibit interesting phenomena like quantum Hall effect under specific conditions.
在量子物理学中，准导体在特定条件下展现出如量子霍尔效应等有趣现象。
The surface of some metals can be treated to form a quasi-conductor layer for better electrical contact.
某些金属的表面可以通过处理形成一层准导体，以获得更好的电接触。
Research into quasi-conductors aims to improve energy efficiency in electronic components.
对准导体的研究旨在提高电子元件的能量效率。
By doping semiconductors with specific elements, scientists can create quasi-conductors with tailored electrical characteristics.
通过向半导体掺杂特定元素，科学家能够创造出具有定制电特性的准导体。
The integration of quasi-conductors into microelectronics has led to more compact and efficient devices.
将准导体整合进微电子技术已导致更紧凑和高效能的设备出现。